CN111065190B - Intelligent light control method and system based on Zigbee communication - Google Patents

Abstract

The invention provides an intelligent light control method and system based on Zigbee communication. The method comprises the following steps: receiving light state control information and/or environment temperature and humidity updating information sent by a control panel; searching ZigBee lamp control node information, and returning the node information to a control panel for displaying, wherein the node information comprises the number of ZigBee lamp control nodes and the MAC address of each ZigBee lamp control node; receiving node selection information sent by a control panel, and determining a target ZigBee lamp control node according to the node selection information; and sending the light state control information and/or the environment temperature and humidity updating information to the target ZigBee lamp control node so that the target ZigBee lamp control node can control the light state and/or return the corresponding environment temperature and humidity information to the control panel for display. Through setting up Zigbee communication LAN, the user controls the lamp accuse node and carries out the Zigbee communication through control panel, and controllable lamp accuse node quantity can expand according to actual need, and transmission distance is far away and the lamp accuse node that can control is many.

Description

Intelligent light control method and system based on Zigbee communication

Technical Field

The invention relates to the technical field of intelligent control, in particular to an intelligent light control method and system based on Zigbee communication.

Background

Traditional light control system has had manual management, and the flexibility is poor, extravagant electric energy and wiring shortcoming such as loaded down with trivial details, has been difficult to satisfy people to house and operational environment higher and higher requirement. With the development of computer technology, communication technology, microelectronic technology and automatic control technology, vigor is brought to the development of intelligent light control systems, and the traditional mechanical light control is replaced by the intelligent light control.

For example, chinese patent document CN107911911A discloses an intelligent light control system based on WIFI and a control method thereof, where a control end controls an LED lamp through a wireless router, so as to implement remote control, and when the signal intensity is insufficient, a smart phone uses a flash lamp to perform optical communication with an adjacent LED lamp, so as to notify the wireless router to increase the transmitting power, thereby not only ensuring the normal operation of the light control system, but also reducing the energy consumption. Although the patent provides a method that when the signal strength is not enough, the wireless router can be informed of providing the transmitting power by using the flash off lamp of the smart phone, the defects of limited transmission distance and small number of controllable nodes still exist due to the characteristics of WiFi; in addition, the lamp can only adjust the on-off of the lamp light and the brightness of the lamp light, and has limited functions.

Disclosure of Invention

The invention provides an intelligent light control method and system based on ZigBee communication, aiming at solving the problems of limited transmission distance and limited control nodes in the existing intelligent light control technology.

The invention provides an intelligent light control method for ZigBee communication, which comprises the following steps:

step 1: receiving light state control information and/or environment temperature and humidity updating information sent by a control panel;

step 2: searching ZigBee lamp control node information, and returning the node information to a control panel for displaying, wherein the node information comprises the number of ZigBee lamp control nodes and the MAC address of each ZigBee lamp control node;

and step 3: receiving node selection information sent by a control panel, and determining a target ZigBee lamp control node according to the node selection information;

and 4, step 4: and sending the light state control information and/or the environment temperature and humidity updating information to the target ZigBee light control node, so that the target ZigBee light control node controls the light state and/or returns the corresponding environment temperature and humidity information to a control panel for displaying.

Further, the light state control information includes: at least one of light switch control information, light color control information, light brightness control information, light flicker control information, light scene effect control information, light timing control information, and light gradual change control information.

Further, still include: creating a mailbox data type and setting the number of mails; correspondingly, the step 1 specifically comprises the following steps:

and receiving the light state control information and/or the environment temperature and humidity updating information sent by the control panel in the form of mails.

Further, the method further comprises: and renaming the node name of each ZigBee lamp control node, and associating the node name with the MAC address.

Further, in step 2, before returning the node information to the control panel for display, the method further includes: filtering the node information;

the filtering process specifically comprises:

initializing a ZigBee lamp control node queue, placing the searched ZigBee lamp control nodes at the tail of the queue each time, deleting the ZigBee lamp control nodes at the head of the queue, and sequentially moving the rest ZigBee lamp control nodes in the queue forwards;

and counting the repetition times of each ZigBee lamp control node in the current ZigBee lamp control node queue, and considering that the ZigBee lamp control node with the repetition times larger than a preset threshold exists, otherwise, the ZigBee lamp control node does not exist.

The invention also provides an intelligent light control system adopting the intelligent light control method based on Zigbee communication, which comprises the following steps: the Zigbee lamp control system comprises a control panel, Zigbee control nodes and a plurality of Zigbee lamp control nodes; the control panel, the Zigbee control node and the Zigbee lamp control node are communicated through a Zigbee protocol; the control panel comprises an interface layer, and the interface layer comprises a temperature and humidity data display unit and a state information control unit; wherein the Zigbee control node is configured to:

receiving lighting state control information sent by a state information control unit and/or environment temperature and humidity updating information sent by a temperature and humidity data display unit;

searching ZigBee lamp control node information, and returning the node information to a control panel for displaying, wherein the node information comprises the number of ZigBee lamp control nodes and the MAC address of each ZigBee lamp control node;

receiving node selection information sent by a control panel, and determining a target ZigBee lamp control node according to the node selection information;

and sending the light state control information and/or the environment temperature and humidity updating information to the target ZigBee light control node, so that the target ZigBee light control node controls the light state and/or returns the corresponding environment temperature and humidity information to a control panel for displaying.

Further, the state information control unit includes:

the display and selection module is used for generating and sending node selection information;

the light switch module is used for generating and sending light switch control information;

the light color module is used for generating and sending light color control information;

the lamp light brightness module is used for generating and sending lamp light brightness control information;

the light flicker module is used for generating and sending light flicker control information;

the lighting scene effect module is used for generating and sending lighting flicker control information;

the lighting timing module is used for generating and sending lighting timing control information;

and the lamplight gradual change module is used for generating and sending lamplight gradual change control information.

Further, the system further comprises:

the mailbox unit is used for creating mailbox data types and setting the number of mails;

accordingly, the control node is configured to: and receiving the lighting state control information sent by the state information control unit in a mail form and/or the environment temperature and humidity updating information sent by the temperature and humidity data display unit in a mail form.

Further, the system further comprises:

and the renaming unit is used for renaming the node names of the ZigBee lamp control nodes and associating the node names with the MAC addresses.

Further, before returning the node information to the control panel for display, the control node is further configured to: filtering the node information;

the filtering process specifically comprises:

initializing a ZigBee lamp control node queue, placing the searched ZigBee lamp control nodes at the tail of the queue each time, deleting the ZigBee lamp control nodes at the head of the queue, and sequentially moving the rest ZigBee lamp control nodes in the queue forwards;

and counting the repetition times of each ZigBee lamp control node in the current ZigBee lamp control node queue, and considering that the ZigBee lamp control node with the repetition times larger than a preset threshold exists, otherwise, the ZigBee lamp control node does not exist.

The invention has the beneficial effects that:

according to the intelligent light control method and system based on ZigBee communication, a Zigbee communication local area network formed by the control panel, the control nodes and the light control nodes is built, the Zigbee network is used for automatically searching all node information of the network and stably displaying the node information on the control panel, a user can selectively control the light control nodes and carry out Zigbee communication through the control panel, the number of controllable light control nodes can be expanded according to actual needs, the transmission distance is long, and the controllable light control nodes are large.

The interface layer of the control panel designed by the invention comprises a plurality of functional modules for controlling the light state, the man-machine interaction interface is simple, the control is convenient, and a user can realize the following related control on the RGB lamp of the lamp control node only by operating the corresponding functional module through a touch screen: the lighting and extinguishing of the light, the brightness adjustment of the light, the color switching of the light, the gradual change of the light, the flicker control of the RGB light, the timing switch control of the RGB light, the realization of the scene effect of the light and the like.

Drawings

Fig. 1 is a schematic flowchart of an intelligent light control method based on ZigBee communication according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent light control system based on ZigBee communication according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a status information control unit according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides an intelligent light control method based on Zigbee communication, including the following steps:

s101: receiving light state control information and/or environment temperature and humidity updating information sent by a control panel;

s102: searching ZigBee lamp control node information, and returning the node information to a control panel for displaying, wherein the node information comprises the number of ZigBee lamp control nodes and the MAC address of each ZigBee lamp control node;

s103: receiving node selection information sent by a control panel, and determining a target ZigBee lamp control node according to the node selection information;

s104: and sending the light state control information and/or the environment temperature and humidity updating information to the target ZigBee light control node, so that the target ZigBee light control node controls the light state and/or returns the corresponding environment temperature and humidity information to a control panel for displaying.

The light state control information includes: at least one of light switch control information, light color control information, light brightness control information, light flicker control information, light scene effect control information, light timing control information, and light gradual change control information.

The embodiment of the invention also provides an intelligent light control method based on Zigbee communication, which comprises the following steps:

s201: creating a mailbox data type and setting the number of mails;

s202: and renaming the node name of each ZigBee lamp control node, and associating the node name with the MAC address.

S203: receiving lighting state control information and/or environment temperature and humidity updating information sent by a control panel in a mail form;

s204: searching ZigBee lamp control node information, filtering the node information, and returning the node information to a control panel for displaying, wherein the node information comprises the number of ZigBee lamp control nodes and the MAC address of each ZigBee lamp control node;

the filtering process specifically comprises: initializing a ZigBee lamp control node queue, placing the searched ZigBee lamp control nodes at the tail of the queue each time, deleting the ZigBee lamp control nodes at the head of the queue, and sequentially moving the rest ZigBee lamp control nodes in the queue forwards; and counting the repetition times of each ZigBee lamp control node in the current ZigBee lamp control node queue, and considering that the ZigBee lamp control node with the repetition times larger than a preset threshold exists, otherwise, the ZigBee lamp control node does not exist.

S205: receiving node selection information sent by a control panel, and determining a target ZigBee lamp control node according to the node selection information; the node selection information includes a node name or a MAC address of the node.

S206: and sending the light state control information and/or the environment temperature and humidity updating information to the target ZigBee light control node, so that the target ZigBee light control node controls the light state and/or returns the corresponding environment temperature and humidity information to a control panel for displaying.

As shown in fig. 2 and fig. 3, an embodiment of the present invention further provides an intelligent light control system using the intelligent light control method based on Zigbee communication, where the system includes: the Zigbee lamp control system comprises a control panel, Zigbee control nodes and a plurality of Zigbee lamp control nodes; the control panel, the Zigbee control node and the Zigbee lamp control node are communicated through a Zigbee protocol; the control panel comprises an interface layer, and the interface layer comprises a temperature and humidity data display unit and a state information control unit; wherein the Zigbee control node is configured to: receiving lighting state control information sent by a state information control unit and/or environment temperature and humidity updating information sent by a temperature and humidity data display unit; searching ZigBee lamp control node information, and returning the node information to a control panel for displaying, wherein the node information comprises the number of ZigBee lamp control nodes and the MAC address of each ZigBee lamp control node; receiving node selection information sent by a control panel, and determining a target ZigBee lamp control node according to the node selection information; and sending the light state control information and/or the environment temperature and humidity updating information to the target ZigBee light control node, so that the target ZigBee light control node controls the light state and/or returns the corresponding environment temperature and humidity information to a control panel for displaying.

The state information control unit includes: the device comprises a display and selection module, a light switch module, a light color module, a light brightness module, a light flicker module, a light scene effect module, a light timing module and a light gradual change module; the display and selection module is used for generating and sending node selection information; the light switch module is used for generating and sending light switch control information; the light color module is used for generating and sending light color control information; the lamp light brightness module is used for generating and sending lamp light brightness control information; the light flicker module is used for generating and sending light flicker control information; the light scene effect module is used for generating and sending light flicker control information; the light timing module is used for generating and sending light timing control information; the light gradual change module is used for generating and sending light gradual change control information. In practical application, a user only needs to touch the corresponding function module on the control panel, and the function module can generate corresponding control information according to touch operation of the user and send the control information to the ZigBee control node.

As an implementable manner, when designing the interface layer of the control panel, the embodiment of the present invention mainly includes a BUTTON control, a checkox control, a SLIDER control, and a TEXT control.

BUTTON control: and when the user presses the BUTTON control, the interface layer calls a callback function to create a color selection interface.

CHECKBOX control: the switch is used for controlling the on-off of light, the on-off of a scene effect function, the on-off of a timing function and the on-off of a gradual change function. The method is equivalent to a check box, if a certain function (such as a scene effect function) needs to be opened, the scene effect option box can be checked, then the interface layer calls a callback function to execute the condition option selected by the CHECKBOX control, and then state control information is sent out in an email mode to achieve the effect of controlling the lighting effect of the lamp control node.

SLIDER control: for controlling the brightness of the light and the flashing frequency of the light. The program framework for creation and initiation of the interface layer is as follows:

the program framework of the BUTTON control is as follows:

the program framework for the CHECKBOX control is as follows:

the program framework for the slide control is as follows:

interface layer timer mechanism: the embodiment of the invention has two timers: one timer is responsible for receiving temperature and humidity data information every 2s and displaying the temperature and humidity data information on the control panel; and the other timer is responsible for receiving the number of the surrounding nodes every 3s, dynamically increasing and deleting the number of the surrounding nodes and displaying the number on the control panel.

Timer program framework:

on the basis of the above embodiment, the intelligent light control system provided by the embodiment of the present invention further includes: a mailbox unit and a renaming unit; the mailbox unit is used for creating mailbox data types and setting the number of mails; accordingly, the control node is configured to: and receiving the lighting state control information sent by the state information control unit in a mail form and/or the environment temperature and humidity updating information sent by the temperature and humidity data display unit in a mail form. The renaming unit is used for renaming the node names of the ZigBee lamp control nodes and associating the node names with the MAC addresses.

In practical application, whether the sender sends the blocking mail or not and whether the receiver receives the blocking mail or not can also be set. The embodiment is set as that the sender blocks, the receiver does not block, the receiver checks the mailbox in real time, and if the mail arrives, the receiver receives the mail and prepares for next receiving without the mail.

Before the node names are weighed and named, the node names displayed on the control panel are generally displayed in the form of network addresses of the nodes, and the network addresses are in the form of numbers of 16 bytes, such as 0203,0507, and two bytes displayed in a hexadecimal form, so that a user cannot directly judge the placement positions of the nodes or the functions of the nodes through the node names. Therefore, the renaming module can enable a user to customize node names such as a living room, a bedroom and the like according to needs, and the user can conveniently and quickly identify and distinguish the nodes.

The control panel in the embodiments of the invention can adopt i.MX283 type chip of Feichka, and the control node can adopt LPC824 chip of Feichka.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. Intelligent light control method based on Zigbee communication is characterized by comprising the following steps:

step 1: receiving light state control information and/or environment temperature and humidity updating information sent by a control panel;

step 2: searching ZigBee lamp control node information, filtering the node information, and returning the node information to a control panel for displaying, wherein the node information comprises the number of ZigBee lamp control nodes and the MAC address of each ZigBee lamp control node;

the filtering process specifically comprises:

initializing a ZigBee lamp control node queue, placing the searched ZigBee lamp control nodes at the tail of the queue each time, deleting the ZigBee lamp control nodes at the head of the queue, and sequentially moving the rest ZigBee lamp control nodes in the queue forwards;

counting the repetition times of each ZigBee lamp control node in the current ZigBee lamp control node queue, and considering that the ZigBee lamp control node with the repetition times larger than a preset threshold exists, otherwise, the ZigBee lamp control node does not exist;

and step 3: receiving node selection information sent by a control panel, and determining a target ZigBee lamp control node according to the node selection information;

and 4, step 4: and sending the light state control information and/or the environment temperature and humidity updating information to the target ZigBee light control node, so that the target ZigBee light control node controls the light state and/or returns the corresponding environment temperature and humidity information to a control panel for displaying.

2. The method of claim 1, wherein the light state control information comprises: at least one of light switch control information, light color control information, light brightness control information, light flicker control information, light scene effect control information, light timing control information, and light gradual change control information.

3. The method of claim 1, further comprising: creating a mailbox data type and setting the number of mails; correspondingly, the step 1 specifically comprises the following steps:

and receiving the light state control information and/or the environment temperature and humidity updating information sent by the control panel in the form of mails.

4. The method of claim 1, further comprising: and renaming the node name of each ZigBee lamp control node, and associating the node name with the MAC address.

5. An intelligent light control system using the intelligent light control method based on Zigbee communication according to any one of claims 1 to 4, comprising: the Zigbee lamp control system comprises a control panel, Zigbee control nodes and a plurality of Zigbee lamp control nodes; the control panel, the Zigbee control node and the Zigbee lamp control node are communicated through a Zigbee protocol; the control panel comprises an interface layer, and the interface layer comprises a temperature and humidity data display unit and a state information control unit; wherein the Zigbee control node is configured to:

receiving lighting state control information sent by a state information control unit and/or environment temperature and humidity updating information sent by a temperature and humidity data display unit;

searching ZigBee lamp control node information, filtering the node information, and returning the node information to a control panel for displaying, wherein the node information comprises the number of ZigBee lamp control nodes and the MAC address of each ZigBee lamp control node; the filtering process specifically comprises: initializing a ZigBee lamp control node queue, placing the searched ZigBee lamp control nodes at the tail of the queue each time, deleting the ZigBee lamp control nodes at the head of the queue, and sequentially moving the rest ZigBee lamp control nodes in the queue forwards;

counting the repetition times of each ZigBee lamp control node in the current ZigBee lamp control node queue, and considering that the ZigBee lamp control node with the repetition times larger than a preset threshold exists, otherwise, the ZigBee lamp control node does not exist;

receiving node selection information sent by a control panel, and determining a target ZigBee lamp control node according to the node selection information;

and sending the light state control information and/or the environment temperature and humidity updating information to the target ZigBee light control node, so that the target ZigBee light control node controls the light state and/or returns the corresponding environment temperature and humidity information to a control panel for displaying.

6. The system of claim 5, wherein the state information control unit comprises:

the display and selection module is used for generating and sending node selection information;

the light switch module is used for generating and sending light switch control information;

the light color module is used for generating and sending light color control information;

the lamp light brightness module is used for generating and sending lamp light brightness control information;

the light flicker module is used for generating and sending light flicker control information;

the lighting scene effect module is used for generating and sending lighting flicker control information;

the lighting timing module is used for generating and sending lighting timing control information;

and the lamplight gradual change module is used for generating and sending lamplight gradual change control information.

7. The system of claim 5, further comprising:

the mailbox unit is used for creating mailbox data types and setting the number of mails;

accordingly, the control node is configured to: and receiving the lighting state control information sent by the state information control unit in a mail form and/or the environment temperature and humidity updating information sent by the temperature and humidity data display unit in a mail form.

8. The system of claim 5, further comprising:

and the renaming unit is used for renaming the node names of the ZigBee lamp control nodes and associating the node names with the MAC addresses.

Images