WO2017088116A1

WO2017088116A1 - Method and system for controlling smart home based on s-link

Info

Publication number: WO2017088116A1
Application number: PCT/CN2015/095496
Authority: WO
Inventors: 李宁
Original assignee: 深圳市科诺德智联科技有限公司
Priority date: 2015-11-25
Filing date: 2015-11-25
Publication date: 2017-06-01

Abstract

The present invention provides a method and system for controlling a smart home based on S-link. The method comprises the following steps: a control center separately allocates a NodeID and a device ID for each terminal device in an S-link network; performing remote control on the terminal device by means of the NodeID and performing point-to-point control on the terminal device by means of the device ID. The system comprises a control center, terminal devices, a remote control terminal, and a point-to-point control terminal. By means of an ad hoc network of S-link terminal devices, the present invention not only solves the problems of three-terminal connection and bidirectional communication, but also is compatible with the conventional point-to-point local control, so that different conventional and smart control modes do not conflict with each other, and security, stability, and good user experience are organically combined in a smart home.

Description

Intelligent home control method and system based on S-link

技术领域 Technical field

The present invention relates to the field of wireless communication technologies, and in particular, to a method and system for controlling a smart home based on S-link.

背景技术 Background technique

At present, the communication technologies commonly used for the control of smart homes are Bluetooth, WiFi, 433MHZ, 315MHZ, Zigbee (Zigbee Protocol, IEEE 802.15.4-based low-power LAN protocol) and Z-wave Alliance (Z-wave Alliance, referred to as Z-wave) and so on. Among them, Bluetooth can only communicate with a single terminal device or a limited number of terminal devices, so that when there are many terminal devices, the user's needs cannot be met; 433MHZ, 315MHZ The IR wireless transmission mode adopts one-way transmission, and the RF signal cannot be cut-off segmentation, so the working state of the terminal device cannot be reflected in real time; and the WiFi radiation intensity is high and the power consumption is high, so when When the WiFi is powered off or an abnormality occurs, the terminal device cannot be controlled; Z-wave is complicated in structure and costly; Zigbee can only use up to 16 The truncation segmentation is easy to cause mutual interference between multiple terminal devices in a small space. It can be seen that the control of the smart home by the above method has the defects of high cost, poor reliability, and complicated use.

发明内容 Summary of the invention

The object of the present invention is to provide an S-link based The control method and system of the smart home are used to solve the problems of high cost, poor reliability and complicated use in the control and control of the smart home in the prior art, so as to realize effective control of the smart home.

A first aspect of the present invention provides a method for controlling a smart home based on S-link, the method comprising the following steps:

The control center assigns a node number to each terminal device in the S-link network (Nodeidentification) , referred to as NodeID) and device ID;

The terminal device is remotely controlled through the NodeID, and the terminal device is controlled point-to-point through the device ID.

Further, the control center allocates a NodeID and a device ID for each terminal device in the S-link network. It also includes:

The control center stores the NodeID and the device ID in the corresponding terminal device node;

And storing routing information in the terminal device node, where the routing information includes NodeIDs of other terminal device nodes adjacent to the terminal device node .

Further, the operation of remotely controlling the terminal device through the NodeID specifically includes:

The remote control terminal sends the first control information to the terminal device node through the control center, where the first control information includes the NodeID of the controlled terminal device And a first control command;

If the controlled terminal device node exceeds the communication distance, the dynamic routing technology is used according to the routing information to and the NodeID. The corresponding controlled terminal device node sends a first control command.

Further, the operation of performing point-to-point control on the terminal device by using the device ID includes:

The point-to-point control terminal sends the second control information to the terminal device node, where the second control information includes the device ID of the controlled terminal device And a second control command;

The terminal device node receives the second control information, if the device ID of the terminal device node itself and the device ID of the controlled terminal device node The same, the second control command is executed.

Another aspect of the present invention is to provide an S-link based a control system for a smart home, the system comprising a control center and a terminal device, wherein

The control center is used to allocate a NodeID and a device ID for each terminal device in the S-link network;

Further, the control center is also used to: NodeID and device ID Stored in the corresponding terminal device node; and store routing information in the terminal device node, the routing information including the NodeID of other terminal device nodes adjacent to the terminal device node.

Further, the system further includes a remote control terminal, and the remote control terminal sends the first control information to the terminal device node through the control center, where the first control information includes the NodeID of the controlled terminal device. And a first control command;

Further, the system further includes a point-to-point control terminal, and the point-to-point control terminal sends the second control information to the terminal device node, where the second control information includes the device ID of the controlled terminal device and the second control command;

The beneficial effects of adopting the above technical solution of the present invention are: through S-link The self-organizing network of the terminal device not only solves the problem of three-terminal communication, two-way communication, but also is compatible with the traditional control of point-to-point localization, so that different control methods of traditional and intelligent do not conflict, thereby making the smart home safe and stable. Perfectly integrated with a good user experience.

附图说明 DRAWINGS

1 is a schematic flow chart of a method for controlling a smart home based on S-link according to the present invention;

FIG. 2 is a schematic diagram of the control principle of the smart home based on S-link according to the present invention.

具体实施方式 detailed description

The technical solutions in the embodiments of the present invention will be clearly and completely described in conjunction with the drawings in the embodiments of the present invention. It is a partial embodiment of the invention, and not all of the embodiments.

The embodiment of the invention discloses a control method of a smart home based on S-link, as shown in FIG. 1 As shown, the method can include the following steps:

Step S101: The control center allocates a NodeID and a device ID for each terminal device in the S-link network. ;

Step S102: The control center stores the NodeID and the device ID in the corresponding terminal device node.

Step S103, and storing routing information in the terminal device node, where the routing information includes other terminal device nodes adjacent to the terminal device node NodeID ;

Step S104: remotely control the terminal device by using the NodeID, and pass the device ID. Perform peer-to-peer control on the terminal device.

In the foregoing embodiment of the present invention, the first control information may be sent to the terminal device node through the control center by using a remote control terminal such as a smart phone or a tablet computer through the Internet or a local area network, wherein the first control information includes the controlled terminal. equipment NodeID and the first control command, if the controlled terminal device node exceeds the communication distance, the dynamic routing technology can be used according to the routing information to and the NodeID The corresponding controlled terminal device node sends the first control command to control the controlled terminal device. When the remote control terminal such as a smart phone, a tablet computer, or the like is missing, or the device cannot be normally connected to the Internet or a local area network, the second control information may be sent to the terminal device node by using a peer-to-peer control terminal such as a remote controller, wherein The second control information includes the device of the controlled terminal device And the second control command, the terminal device node receives the second control information, if the device ID of the terminal device node itself and the device ID of the controlled terminal device node The same, the second control command is executed to implement point-to-point control.

The principle of the method of the present invention is further explained below, as shown in FIG. 2, in this embodiment, each S-LINK The network is assigned a separate network address (HomeID), and the address of each terminal device node 1 in the network is controlled by the terminal device 2 (Controller) Assignment. Each network can accommodate up to 99 terminal device nodes 1 , and the terminal device control node 2 can have multiple, but only one master control node is the control center 3 , that is, the terminal device nodes in all networks 1 The allocation is handled by the control center 3, and the terminal device control node 2 simply forwards the commands of the control center 1. The ordinary terminal device node 1 that has entered the network can be controlled by all terminal devices. 2 Control. The terminal device node 1 beyond the communication distance can be controlled by the dynamic routing technology through other terminal device nodes between the terminal device control node and the controlled terminal device node. Each terminal device node 1 There is a routing table inside, which is written by the control center 3 through the terminal device control node 2. The storage information is the NodeID of other terminal device nodes existing around the terminal device node when the network is connected to the network. . In this way, each terminal device node knows which terminal device nodes are around, and the terminal device control node stores routing information of all terminal device nodes. When the distance between the terminal device control node and the controlled terminal device node exceeds the maximum control distance, the terminal device control node invokes the last time to correctly control the path sending command of the terminal device node, and if the path fails to be sent, the first terminal is The device node begins to retrieve the new path again.

In this embodiment, it is possible to control whether the node can directly connect wirelessly with the controlled terminal device node through the terminal device, if the connection is indicated within the control distance, if it is not connected, it indicates that the control distance is exceeded. The control center also has a gateway function, which is responsible for the cloud controllers that other terminal device control nodes and terminal device nodes access the Internet through the entire network and accept remote control terminals. 4 instructions.

In this embodiment, the remote control terminal 4 can access the local area network through the router 5, thereby accessing the S-LINK through the local area network. The terminal device in the network performs remote control; the remote control terminal 4 can also access the cloud server via the Internet. 6 Pair S-LINK The terminal devices in the network are remotely controlled. In this embodiment, the cloud server can perform management and command execution on the user data and the device data, such as which terminal devices are managed under a certain user account, the history of the use or status of the terminal device, and the time switch of a terminal device. Control commands, etc., can also replace the user to achieve timing, automatic linkage and application scene settings, thus automatic control of the terminal equipment, such as timing lights / Turn off the lights and control the brightness, heating, cooling and color; the sensor finds that the gas leak automatically closes the gas valve; the user goes home to automatically turn on the lights, open the curtains, turn on the electrical power and turn on the air conditioner. The remote control terminal can be installed with relevant control application software ( Application, referred to as APP) or Android installation package (AndroidPackage, referred to as APK Smartphones, tablets, etc. Due to the popularity of smartphones and tablets, users can easily control any location, any time and multiple users simultaneously, such as remote control of the lighting switch or the temperature of the air conditioner. Set the time of the water heater switch.

In this embodiment, the peer-to-peer control terminal 7 It can be a control device such as a remote controller, and can be used for the user to perform point-to-point control on the terminal device. For example, the user can use the air conditioner remote controller to control the air conditioner within the remote control range. The terminal device can be installed with S-link The wireless module's lighting fixtures, switch sockets, air conditioners, water heaters, cameras and other household equipment can execute the received control commands, such as performing the power switch on or off, the air conditioner execution temperature adjustment, the lighting fixtures to perform the illumination switch, Brightness, cool and warm colors, color adjustment, etc.

Specifically, in this embodiment, the control center separately allocates each terminal device in the S-link network through the 2.4G wireless signal. a NodeID and a device ID, and store them in the corresponding terminal device node, and store routing information in the terminal device node, the routing information including other terminal device nodes adjacent to the terminal device node The routing table of the NodeID, therefore, each terminal device node knows which terminal device nodes are around, and the control center stores the NodeID of all terminal device nodes. And routing information. When the control center is to control a certain terminal device, the first control information may be directly sent to the terminal device node in the routing table according to the stored routing information, where the first control information may include the controlled terminal device. a NodeID and a first control command, when the terminal device receives the first control information, the NodeID of the controlled terminal device in the first control information and the NodeID stored by itself Performing the comparison, if the two are the same, executing the first control command; if different, the first control information may be forwarded to the terminal device in the routing table stored by itself according to the routing table and using the dynamic routing technology, thereby causing the control The terminal device can receive the first control information, thereby executing the first control command.

When the remote control terminal such as a smart phone, a tablet computer, or the like is missing, or when the network cannot be normally connected, the second control information may be sent to the terminal device node by using a point-to-point control terminal such as a remote controller, where the second control information includes Device for controlling terminal equipment And the second control command, the terminal device node receives the second control information, if the device ID of the terminal device node itself and the device ID of the controlled terminal device node The same, the second control command is executed to implement point-to-point localization control.

The above method of the present invention passes S-link The self-organizing network of the terminal device not only solves the problem of three-terminal communication, two-way communication, but also is compatible with the traditional control of point-to-point localization, so that different control methods of traditional and intelligent do not conflict, thereby making the smart home safe and stable. Perfectly integrated with a good user experience.

The S-link-based smart home control method provided by the invention also has the following technological innovation advantages:

1. Compared with the WiFi module, the S-link wireless module used in the present invention has a volume of 1/6 of WiFi. The price is 1/3 of WiFi, the radiation intensity is 1/3 or less of WiFi (WiFi is about 15dbm; S-link is 5dbm), standby power is 1/10 of WiFi (WIFi is about 200 mAh, S-link is 20 mA), it is more self-organizing LAN, does not occupy the limited wireless connection channel of the existing router, so the S-link wireless module used in the invention is more energy-saving and environmentally friendly;

2, with Bluetooth 4.0 can only be compared to a single terminal device or a limited number of terminal devices, S-link The wireless module can self-organize the local area network, so that the terminal device can only set up its own internal network through the control center, and can also connect and control 99. Sub-devices and self-organizing local area networks, which can realize unified or group control and management between different terminal devices;

3, compared with Zigbee and Z-Wave, using S-LINK Wireless module interconnection is a wireless communication technology with simple structure, low cost and reliable performance. The price of S-LINK wireless module is 1/3 of the price of Zigbee and Z-Wave module. Or less, the self-organizing LAN is also simpler and more practical, so that many traditional home affordable products such as lamps, switches, sockets, etc. can achieve intelligent transformation with lower thresholds, and lower cost allows products to be promoted and sold faster in the market; S-LINK The wireless module is twice as large as Zigbee's 16 cutoff segments, which can reach 32 The cutoff frequency segmentation makes the wireless signal anti-interference ability of multi-user and high-density terminal equipment in a small space range stronger.

4, compared with 433MHZ, 315MHZ and other traditional one-way transmission of the IR wireless transmission mode, S-LINK The wireless module can transmit wirelessly in two directions, and can reflect the working status and information of the device terminal in real time; and the traditional RF signals such as 433MHZ and 315MHZ cannot be cut off, S-LINK The wireless module can achieve up to 32 cutoff segments, so its immunity to interference is stronger.

The embodiment of the invention also discloses an S-link based on S-link The control system of the smart home, the system may include a control center and a terminal device, wherein the control center is configured to respectively allocate a NodeID and a device ID for each terminal device in the S-link network; The NodeID remotely controls the terminal device and performs peer-to-peer control on the terminal device through the device ID.

The Control Center can also be used to: NodeID and Device ID Stored in the corresponding terminal device node; and store routing information in the terminal device node, wherein the routing information includes a NodeID of another terminal device node adjacent to the terminal device node.

Specifically, the system may further include a remote control terminal, where the remote control terminal may be configured to send the first control information to the terminal device node by using the control center, where the first control information includes the NodeID of the controlled terminal device. And the first control command; if the controlled terminal device node exceeds the communication distance, the dynamic control technology is used according to the routing information to send the first control command to the controlled terminal device node corresponding to the NodeID.

Specifically, the system may further include a point-to-point control terminal, where the point-to-point control terminal may be configured to send the second control information to the terminal device node, where the second control information includes the device ID of the controlled terminal device. And the second control command; the terminal device node receives the second control information, and if the device ID of the terminal device node itself is the same as the device ID of the controlled terminal device node, executing the second control command.

The S-link-based smart home control system of this embodiment can be used to execute FIG. 1 and FIG. 2 The technical solution of the method embodiment is similar, and the implementation principle and the technical effect are similar, and details are not described herein again.

One of ordinary skill in the art will appreciate that all or part of the steps to implement the various method embodiments described above may be accomplished by hardware associated with the program instructions. The aforementioned program can be stored in a computer readable storage medium. The program, when executed, performs the steps including the foregoing method embodiments; and the foregoing storage medium includes: A variety of media that can store program code, such as ROM, RAM, disk, or optical disk.

Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, and are not intended to be limiting; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that The technical solutions described in the foregoing embodiments may be modified, or some or all of the technical features may be equivalently replaced; and the modifications or substitutions do not deviate from the technical solutions of the embodiments of the present invention. range.

Claims

A method for controlling a smart home based on S-link, characterized in that the method comprises the following steps:

The control center allocates a NodeID and a device ID for each terminal device in the S-link network;

Remotely controlling the terminal device by using the NodeID, and performing peer-to-peer control on the terminal device by using the device ID.
The S-link-based smart home control method according to claim 1, wherein the control center further allocates a NodeID and a device ID to each terminal device in the S-link network, and further includes:

The control center stores the NodeID and the device ID in a corresponding terminal device node;

And storing routing information in the terminal device node, where the routing information includes a NodeID of another terminal device node adjacent to the terminal device node.
The S-link-based smart home control method according to claim 2, wherein the remotely controlling the terminal device by using the NodeID comprises:

The remote control terminal sends the first control information to the terminal device node by using the control center, where the first control information includes a NodeID of the controlled terminal device and a first control command;

And if the controlled terminal device node exceeds the communication distance, the first control command is sent to the controlled terminal device node corresponding to the NodeID by using a dynamic routing technology according to the routing information.
The S-link-based smart home control method according to claim 2, wherein the operation of performing point-to-point control on the terminal device by using the device ID comprises:

The point-to-point control terminal sends the second control information to the terminal device node, where the second control information includes the device ID of the controlled terminal device and the second control command;

The terminal device node receives the second control information, and if the device ID of the terminal device node itself is the same as the device ID of the controlled terminal device node, executing the second control command.
A control system for a smart home based on S-link, characterized in that the system comprises a control center and a terminal device, wherein

The control center is configured to separately allocate a NodeID and a device ID for each of the terminal devices in the S-link network;

And remotely controlling the terminal device by using the NodeID, and performing peer-to-peer control on the terminal device by using the device ID.
The S-link-based smart home control system according to claim 5, wherein the control center is further configured to: store the NodeID and the device ID in a corresponding terminal device node; The terminal device node stores routing information, and the routing information includes a NodeID of another terminal device node adjacent to the terminal device node.
The S-link based smart home control system according to claim 6, wherein the system further comprises a remote control terminal,

Transmitting, by the control center, the first control information to the terminal device node by using the control center, where the first control information includes a NodeID of the controlled terminal device and a first control command;

And if the controlled terminal device node exceeds the communication distance, the first control command is sent to the controlled terminal device node corresponding to the NodeID by using a dynamic routing technology according to the routing information.
The S-link based smart home control system according to claim 6, wherein the system further comprises a point-to-point control terminal,

The point-to-point control terminal sends second control information to the terminal device node, where the second control information includes a device ID of the controlled terminal device and a second control command;

The terminal device node receives the second control information, and if the device ID of the terminal device node itself is the same as the device ID of the controlled terminal device node, executing the second control command.