CN107070678B - Automatic organized discrete function computer group system and method - Google Patents

Abstract

The system, method and application of the automatically organized discrete functional computer group of the present invention relate to a computer group with specific functions, wherein the functional computers refer to intelligent controllers and terminal controllers each having a unique code, storage space and its own CPU; the intelligent controller includes a network control module, and the network control module includes a self-organizing module. The identification address generating module in the self-organizing module obtains decision-making power according to a relevant mechanism, and arranges identification addresses of electrical equipment connected to other intelligent controllers and terminal controllers under the condition of having decision-making power. In this way, the components in the functional computers have the ability of self-organization and management, and there is no need for the network administrator to set and allocate addresses for the internal facilities of the network after the network is connected, which solves the obstacles to network connection of other devices except computers in the prior art, and realizes the application of network low-voltage circuit connection on various electrical equipment through self-organization.

Description

Automatically organized discrete functional computer swarm system and method

Technical field:

The invention relates to a computer group with specific functions, in particular to a functional computer group that can be automatically organized to provide network services for low-voltage direct current application individuals, its organization method and its service application.

Background technique:

It is a major revolution in modern technology to connect computers with a network, so that different computers can communicate and communicate with each other through the network. Specialized electricians do the circuit connection, but ordinary people without electrician qualifications can complete the network connection. In this way, the network connection and network transformation are very convenient.

The end user of the power grid system, the lamp user network, is connected to the AC network under 220V or other voltages. Therefore, the connection of the power grid not only requires a person with special electrician qualifications to connect, but also the transformation of the lamp network after the connection is completed. It is also very troublesome. Electricians must be involved, and ordinary people cannot make changes to the light network at will.

Other AC power facilities network in daily work and life, such as household AC power equipment network (including low-voltage DC power equipment such as computers), in fact, these devices can directly use low-voltage DC power, but due to the relatively narrow closed The environment (such as home, office) does not have a power supply network for low-voltage direct current, so it is necessary to convert alternating current into low-voltage direct current at each power supply point before it can be used by these devices, thus increasing the use of transformer equipment, thereby increasing the cost, It also wastes power resources.

However, in the existing organization of computer networks such as Ethernet, the network administrator must assign IP addresses to the connected ports, including static addresses and dynamic addresses. However, when trying to extend the computer network system to other network applications , the problem that must be faced is that there is no administrator to assign network addresses, because it is impossible to set up special administrators for these application facilities to assign network addresses. This is the huge interconnection advantage of computer networks. One of the reasons for application in other low voltage DC facilities.

Invention content:

The invention solves the network connection obstacle of other devices except computers in the prior art, provides an automatically organized discrete function computer group system, and also provides its self-organizing method and its application in providing network services for low-voltage direct current facilities.

The present invention is realized in this way:

An automatically organized discrete functional computer group system, the functional computers refer to intelligent controllers and terminal controllers each having unique codes, storage space and its own CPU;

The intelligent controller has a plurality of network interfaces, including a network interface connected with other intelligent controllers and a network interface connected with the end controller;

The terminal controller has a network interface connected with the intelligent controller, and is connected to the electrical equipment controlled by it;

The intelligent controller includes a network control module and a main network information transceiver module. The network control module is used for computing, storage and network control. The main network information transceiver module receives and sends network information and control information through a network interface, and communicates with all the network information. The network control module performs information exchange;

The network control module includes a self-organization module, a storage module and a first control module, and the self-organization module is used to automatically organize functional computer groups;

The self-organization module includes a contact module, a response module and a second control module;

The liaison module understands the connection status of the network interfaces of this station and other functional computers through the main network information transceiver module, obtains the relevant information of the functional computers connected to each interface, stores the relevant information in the storage module, and provides this station at the same time. functional computer related information; the answering module is used to answer the inquiries of other functional computers, and store the related information of these functional computers in the storage module; the second control module includes a list generation module and an identification address generation module, the list The generation module establishes a list of the identification and connection relationship of each functional computer in the group system according to the relevant information of the connected functional computers stored in the storage module, and the identification address generation module obtains the decision-making power according to the relevant mechanism, and has the decision-making power. Under certain conditions, the identification address of the electrical equipment connected to the terminal controller is stored, and the identification address is stored in the storage module and notified to the corresponding functional computer;

The first control module executes control of the electrical equipment according to the identification address of the electrical equipment in the storage module.

The unique code is a MAC address, the identification address is an IP address, the relevant information includes MAC address information and port location information, and the relevant mechanism includes the decision-making power having the smallest value of the MAC address.

The list generated by the list generation module includes an individual list, an individual list list, and a work list. The individual list is the MAC address list of other functional computers directly connected to different network interfaces of a certain functional computer. The individual list list is: A list of MAC addresses of other functional computers directly and indirectly connected to different network interfaces of a functional computer, and the work list is a list of paths formed by other functional computers and their network interfaces that a functional computer passes through to the destination functional computer, The path includes a shortest path and a backup path, and the communication module learns the connection status of each network interface at intervals.

The electrical equipment is a low-voltage DC lamp, the IP address is a 3-level IP address, that is, an intelligent controller, a terminal controller and a low-voltage DC lamp, and the several times are 0.1-60 seconds; or the electrical equipment is The intelligent controller of the low-voltage DC lamp includes a first-level intelligent controller and a second-level intelligent controller, the IP address is a fourth-level IP address, including a two-level intelligent controller address, and the several times are 0.1-60 seconds.

The terminal controller has a network interface connected with another terminal controller, and a plurality of terminal controllers can form a series of communication series components, and the low-voltage DC lamp is an LED lamp.

The intelligent controller also includes a power module and a wireless communication module, the power module converts the commercial power into low-voltage direct current, which is used for the intelligent controller to supply its own power and transmit it to the terminal controller and the electrical equipment it controls through the power relay. ; The intelligent controller is provided with a wireless communication module for receiving and sending wireless communication signals.

The terminal controller includes a network information transceiver module, a terminal computing module and a light-emitting industrial control module connected in sequence, the light-emitting industrial control module is connected with the low-voltage DC lamp through a digital control switch, and the first control module transmits the control information through the network information. The transceiver module is transmitted to the terminal calculation module, and the terminal calculation module transmits the control information to the light-emitting industrial control module according to the identification address, and the light-emitting industrial control module controls the corresponding low-voltage DC lamp.

The terminal controller also includes a photometric industrial control module, which is respectively connected with the terminal calculation module and the application photoreceptor, the application photoreceptor is connected with the terminal controller, and senses the low voltage connected with the terminal controller. If the DC light is strong, the photometric industrial control module reads the photosensitive value of the corresponding application photoreceptor according to the control information of the end calculation module, and transmits it to the end calculation module, and the end calculation module sends the photosensitive value of the application photoreceptor through the network information transceiver module The value is passed to the first control module of the intelligent controller.

The identification address generation module also arranges the identification addresses of each functional computer, stores the identification address in the storage module and notifies the corresponding functional computers;

Discrete functional computer group self-organization method, the functional computer refers to an intelligent controller and an end controller each having a unique code, storage space and its own CPU; the intelligent controller has a plurality of network interfaces, including other intelligent controllers. a network interface connected to the controller and a network interface connected to the end controller; the end controller has a network interface connected to the intelligent controller, and is connected to the electrical equipment controlled by it; the self-organization method includes:

1) connecting one or more of the end controllers to the intelligent controllers through a network interface, and connecting the intelligent controllers to each other;

2) The connected functional computers communicate with each other, and each intelligent controller obtains the relevant information of the terminal controller and other intelligent controllers connected to it. And a list of connection relationships, the relevant information includes MAC address information, port location information;

3) The intelligent controller with decision-making power arranges the identification addresses of each functional computer and the electrical equipment connected to the terminal controller;

4) Each intelligent controller controls each electrical equipment according to the identification address of the electrical equipment.

The decision-making power refers to the decision-making power of the intelligent controller with the smallest MAC address value to arrange identification addresses; the list includes an individual list, an individual list list, and a work list, and the individual list is a different network interface with a certain function computer. The list of MAC addresses of computers with other functions directly connected, the individual list list is the list of MAC addresses of computers with other functions directly and indirectly connected to different network interfaces of a computer with a function, and the work list is a computer with a function to the destination function A list of paths formed by other functional computers and their network interfaces passed by the computer, the paths include the shortest path and the backup path; the mutual communication is carried out every certain time.

The electrical equipment is a low-voltage DC lamp, the IP address is a 3-level IP address, that is, an intelligent controller, a terminal controller and a low-voltage DC lamp, and the several times are 0.1-60 seconds; or the electrical equipment is The intelligent controller of the low-voltage DC lamp includes a first-level intelligent controller and a second-level intelligent controller, the IP address is a fourth-level IP address, including a two-level intelligent controller address, and the several times are 0.1-60 seconds.

The low-voltage DC lamp is an LED lamp, and after the second) step is completed, each functional computer first performs a clearing operation on their respective lists.

The intelligent controller converts the commercial power into low-voltage direct current, which is used for the intelligent controller to supply power and transmit it to the terminal controller and the electrical equipment it controls; the intelligent controller is used for receiving and sending wireless communication signals.

The application of the automatically organized discrete functional computer groups in controlling low-voltage direct current lamps or other household appliances.

The application of the automatically organized discrete functional computer groups in the control of electrical office and machine equipment.

Technical effect:

The functional computer of the present invention includes an intelligent controller with a network interface, the network control module in the intelligent controller includes a self-organizing module for automatically organizing the functional computer group, and the identification address in the self-organizing module generates The module obtains the decision-making power according to the relevant mechanism, and arranges the identification address of the electrical equipment connected with other intelligent controllers and end controllers under the condition of having the decision-making power, and stores the identification address in the storage module and informs the corresponding functional computer. In this way, the components in the functional computer have the ability of self-organization and management, and it is not necessary for the network administrator to set and assign addresses to the internal facilities of the network after the network is connected, which solves the problem of network connection of other devices other than computers in the prior art. Through self-organization, the application of network low-voltage circuit connection in various electrical equipment is realized.

Description of drawings:

FIG. 1 is a schematic structural diagram of the present invention.

Figure 2 is a structural block diagram of the terminal controller controlling the low-voltage DC lamp.

Figure 3 is a list of individuals.

Figure 4 is a list of individual lists.

Figure 5 is a work list.

Detailed ways:

Accompanying drawing 1 is the structural representation of the present invention, showing two intelligent controllers (referred to as A disks) as functional computers and the end controllers (referred to as C disks) of functional computers that are connected with these two intelligent controllers respectively, Of course, there can be N intelligent controllers, and each intelligent controller can be connected to N end controllers. And intelligent controllers can also be divided into level connections, that is, to form a first-level intelligent controller (referred to as A disk) and a second-level intelligent controller (referred to as B disk) to form a larger group of discrete function computers with more function computers. The functional computer refers to an intelligent controller and an end controller each having a unique code, storage space and its own CPU; the unique code can be, for example, a MAC address.

The intelligent controller has a plurality of network interfaces, including a network interface connected with other intelligent controllers and a network interface connected with the end controller, and the intelligent controller is connected with the end controller and other intelligent controllers. The network interface can be the same or different;

The end controller has a network interface connected with the intelligent controller, and is connected to the electrical equipment controlled by it, preferably, the end controller has a network interface connected with other end controllers, and a plurality of end controllers A daisy chain of communication series components can be formed, and the electrical equipment can be LED lights or other low-voltage DC lamps or other low-voltage DC electrical equipment, or electrical equipment that outputs low-voltage DC after conversion. Low-voltage DC power supply network TV (used in hotels and restaurants), various low-voltage DC sensors (applications on the Internet of Things), low-voltage DC card readers, low-voltage DC RFID card readers, etc.; low-voltage DC sensors can be photoreceptors, etc. , or various home appliances, which have been connected to the low-voltage DC module, either before or after leaving the factory;

In FIG. 1, the intelligent controller includes a network control module and a main network information transceiver module, the network control module is used for computing, storage and network control, and the main network information transceiver module receives and sends network information and control information through a network interface , and exchange information with the network control module;

The network control module includes a self-organization module, a storage module and a first control module, and the self-organization module is used to automatically organize functional computer groups. The use of manual IP address allocation, unlike the random address allocation of the Internet, cannot control the electrical equipment connected to it, because the random address allocation of the Internet does not require the computers in the network to know the relationship with each other, and this The self-organizing module of the invention can establish the mutual organic connection and relationship of each functional computer in the network; therefore, the self-organizing module includes a contact module, a response module and a second control module;

The liaison module understands the connection status of the network interface between the station and other functional computers through the main network information transceiver module, obtains the relevant information of the functional computers connected to each network interface, stores the relevant information in the storage module, and provides the station at the same time. functional computer related information; the answering module is used to answer the inquiries of other functional computers, and store the related information of these functional computers in the storage module; the second control module includes a list generation module and an identification address generation module, the list The generation module establishes a list of the identification and connection relationship of each functional computer in the group system according to the relevant information of the connected functional computers stored in the storage module, and the identification address generation module obtains the decision-making power according to the relevant mechanism, and has the decision-making power. Arrange the identification addresses of each functional computer and the electrical equipment connected to the end controller under the conditions, and it is preferable to arrange the identification addresses of each functional computer, and store the identification address in the storage module and notify the corresponding functional computer; The difference is that the addresses in the Internet are randomly assigned to the computers in the Internet, and each computer in the Internet itself does not participate in the information exchange link before the identification address assignment. The identification address may be, for example, an IP address. The relevant information includes MAC address information and port location information. The relevant mechanism is that the minimum value of the MAC address has the decision-making power. Of course, other mechanisms can also be set, such as the number that the minimum value of the MAC address is divisible by 2. The communication module can use RS-232, RS-485, and other general communications; it can also use Asynchronous Communication (asynchronous communication) Protocol to communicate.

The list generated by the list generation module includes an individual list, an individual list list, and a work list, and the individual list is a list of MAC addresses of other functional computers directly connected to different network interfaces of a certain functional computer, see the list in Figure 3 Among them, the MAC address (ie factory number) of a function computer (it can be an intelligent controller or an end controller) is 123456789, and it has 6 network interfaces, and its 2, 3 and 6 network interfaces are connected with another three A functional computer (A disk or B disk number, or the other party's factory number). The individual list list is a list of MAC addresses of other functional computers indirectly connected to different network interfaces (ie ports, or network ports) of a certain functional computer (in the case of disk B), as shown in Figure 4 , that is, in this figure, in addition to the MAC addresses of the functional computers directly connected to the network interface, the MAC addresses of other functional computers connected to other network interfaces of these directly connected functional computers are also listed in the table. The work list is a list of paths formed by other functional computers and their network interfaces that pass through a function computer to the destination function computer, as shown in Figure 5. The path recorded in Figure 5 is based on the individual list list in Figure 4. The drawing reflects the path from the B drive with the MAC address of 123456789 to computers with different functions. The individual is a functional computer, especially an intelligent controller. The work list is the network connection graph of the group, and the path includes the shortest path and the backup path, so the work list also has a list for backup and a temporary list.

The liaison module learns the connection status of each network interface at regular intervals. In this way, once a certain function of the computer is damaged, the information exchange and control of other connection paths can be established through the backup path. At the same time, once the functional computer of the network interface where the original damaged functional computer is located is restored or replaced, the group can resume the original path.

The first control module executes the control of the electrical equipment according to the identification address of the electrical equipment in the storage module. Since the mutual relationship and identification address of each functional computer and the identification address of the electrical equipment are established in the self-organization module, the network The first control module in the control module can control different electrical equipment according to different application needs. Since functional computers all have CPU and storage space, different control software according to the functional requirements of different electrical equipment can be input, thereby Realize the control of various functions.

The IP address can be a 3-level IP address, that is, the intelligent controller, the terminal controller and the low-voltage DC lamp, and the time for knowing the connection status of each network interface is 0.1-60 seconds; of course, the intelligent controller can include There are first-level intelligent controllers and second-level intelligent controllers with different functional levels, and at this time, the IP address is a fourth-level IP address, including two-level intelligent controller addresses.

The intelligent controller also includes a power module, which converts the commercial power into low-voltage direct current, which is used for the intelligent controller to supply power itself and transmit it to the terminal controller and its controlled electrical equipment through the power relay. The intelligent controller can also be provided with a wireless communication module for receiving and sending wireless communication signals. This module can be a part of the main network information transceiver module and is connected to the network control module through other communication means of the module, or can be a part of the network control module. A separate module independent of the main network information transceiver module is connected to the network control module, transmits control commands to the network control module and converts the control commands of the network control module into wireless signals for transmission.

Referring to FIG. 2 , the terminal controller includes a network information transceiver module, terminal computing module and light-emitting industrial control module connected in sequence, and the light-emitting industrial control module is connected to the low-voltage DC lamp through a digital control switch.

Corresponding to the product of the above-mentioned automatically organized discrete functional computer groups, the present invention also relates to a method for self-organizing discrete functional computer groups. The self-organizing method includes:

1) connecting one or more of the terminal controllers to the intelligent controller through a network interface, and connecting the intelligent controllers (disk A, disk B) to each other;

2) The connected functional computers communicate with each other, and each intelligent controller obtains the relevant information of the terminal controller and other intelligent controllers connected to it, and establishes a list of mutual identification and connection relationships between the functional computers according to their respective relevant information. , the relevant information includes MAC address information and port location information;

3) The intelligent controller with decision-making power arranges the identification addresses of each functional computer and the electrical equipment connected to the terminal controller;

4) Each intelligent controller controls each electrical equipment according to the identification address of the electrical equipment.

The decision-making power refers to the decision-making power possessed by the intelligent controller with the smallest MAC address; the list includes an individual list (see Figure 3), an individual list list (see Figure 4), and a work list (see Figure 5). The individual list is the MAC address list of other functional computers directly connected to different network interfaces of a certain functional computer, and the individual list is the MAC address list of other functional computers directly and indirectly connected to different network interfaces of a certain functional computer, The work list is a list of paths formed by other functional computers and their network interfaces that pass from a functional computer to the destination functional computer, and the paths include shortest paths and backup paths;

The electrical equipment is a low-voltage DC lamp, such as an LED lamp. The IP address is a 3-level IP address, that is, an intelligent controller, an end controller and a low-voltage DC lamp, and the several times are 0.1-60 seconds; or the electrical equipment is a low-voltage DC lamp, and the intelligent controller includes For the first-level intelligent controller and the second-level intelligent controller, the IP address is a fourth-level IP address, including the two-level intelligent controller address, and the several times are 0.1-60 seconds.

Claims (14)

1. An automatically organized discrete functional computer group system, wherein each functional computer is provided with a unique code, a storage space, an intelligent controller with a CPU and a terminal controller;

the intelligent controller is provided with a plurality of network interfaces, including network interfaces connected with other intelligent controllers and network interfaces connected with the end controller;

the tail end controller is provided with a network interface connected with the intelligent controller and is connected with electric equipment controlled by the intelligent controller;

the intelligent controller comprises a network control module and a main network information transceiving module, wherein the network control module is used for operation, storage and network control, and the main network information transceiving module receives and transmits network information and control information through a network interface and performs information interaction with the network control module;

the network control module comprises a self-organization module, a storage module and a first control module, wherein the self-organization module is used for automatically organizing a functional computer group;

the self-organization module comprises a contact module, a response module and a second control module;

the contact module learns the connection condition of each network interface of the local computer and other functional computers through the main network information transceiving module, acquires the relevant information of the functional computers connected with each interface, stores the relevant information in the storage module and simultaneously provides the relevant information of the local computer; the response module is used for responding to the inquiry of other functional computers and storing the related information of the functional computers in the storage module; the second control module comprises a list generation module and an identification address generation module, the list generation module establishes a list of identification and connection relations of all the functional computers in the group system according to related information of connected functional computers stored in the storage module, and the identification address generation module acquires decision power according to a related mechanism, acquires identification addresses of electric equipment connected with the end controller under the condition of decision power, stores the identification addresses in the storage module and informs the corresponding functional computers;

the first control module executes control over the electric equipment according to the identification address of the electric equipment in the storage module.

2. The system of claim 1, wherein the unique code is a MAC address, the identification address is an IP address, the correlation information includes MAC address information and port location information, and the correlation mechanism includes that the decision power is achieved when the MAC address value is minimum.

3. The system of claim 2, wherein the list generated by the list generation module comprises an individual list, an individual list and a work list, the individual list is a MAC address list of other functional computers directly connected to different network interfaces of a functional computer, the individual list is a MAC address list of other functional computers directly and indirectly connected to different network interfaces of a functional computer, the work list is a path list consisting of other functional computers and their network interfaces through which a functional computer passes to a destination functional computer, the path includes a shortest path and a backup path, and the connection module learns the connection status of each network interface at intervals.

4. The automatically organized discrete functional computer population system according to claim 3, wherein said electric devices are low voltage DC lamps, said IP addresses are 3-level IP addresses, i.e. intelligent controller, end-controller and low voltage DC lamps, said time periods are 0.1-60 seconds; or the electric equipment is a low-voltage direct-current lamp, the intelligent controller comprises a first-level intelligent controller and a second-level intelligent controller, the IP address is a 4-level IP address comprising addresses of the two-level intelligent controllers, and the time is 0.1-60 seconds.

5. The self-organizing discrete function computer population system of claim 4, wherein said end-effectors have network interfaces for connecting to other end-effectors, a plurality of end-effectors forming a string of communication series modules, and said low-voltage DC lamps are LED lamps.

6. The automatically organized discrete functional computer population system according to claim 4 or 5, wherein the intelligent controller further comprises a power module and a wireless communication module, wherein the power module converts commercial power into low-voltage direct current for the intelligent controller to supply power to itself and transmit the power to the end controller and the electric equipment controlled by the end controller through the power servomotor; the intelligent controller is provided with a wireless communication module for receiving and sending wireless communication signals.

7. The system of claim 6, wherein the end controller comprises a network information transceiver module, an end computing module and a light emitting industrial control module, the network information transceiver module, the end computing module and the light emitting industrial control module are sequentially connected, the light emitting industrial control module is connected with the low voltage dc lamp through a digital control switch, the first control module transmits control information to the end computing module through the network information transceiver module, the end computing module transmits the control information to the light emitting industrial control module according to the identification address, and the light emitting industrial control module controls the corresponding low voltage dc lamp.

8. The system of claim 7, wherein the end controller further comprises a photo-industrial control module, the photo-industrial control module is respectively connected to the end computing module and the application photoreceptor, the application photoreceptor is connected to the end controller for sensing the light intensity of the low-voltage dc lamp connected to the end controller, the photo-industrial control module reads the photosensitive value of the corresponding application photoreceptor according to the control information of the end computing module and transmits the photosensitive value to the end computing module, and the end computing module transmits the photosensitive value of the application photoreceptor to the first control module of the intelligent controller through the network information transceiver module.

9. The system of claim 1, wherein the identification address generating module further arranges the identification address of each functional computer, stores the identification address in the storage module, and notifies the corresponding functional computer.

10. The self-organization method of the discrete functional computer group, the said functional computer refers to the intelligent controller and end controller with only code, storage space and own CPU separately; the intelligent controller is provided with a plurality of network interfaces, including network interfaces connected with other intelligent controllers and network interfaces connected with the end controller; the tail end controller is provided with a network interface connected with the intelligent controller and is connected with electric equipment controlled by the intelligent controller; the self-organization method comprises the following steps:

1) connecting one or more of the end-point controllers to the intelligent controller through a network interface and connecting the intelligent controllers to each other;

2) the connected functional computers are mutually communicated, each intelligent controller obtains relevant information of a tail end controller and other intelligent controllers connected with the intelligent controller, each functional computer establishes a list of mutual identification and connection relation according to the relevant information of the intelligent controller and the obtained relevant information of other functional computers, and the relevant information comprises MAC address information and port position information;

3) the intelligent controller with decision power arranges the identification addresses of all functional computers and the electric equipment connected with the end controller;

4) and each intelligent controller controls each electric device according to the identification address of the electric device.

11. The discrete functional computer group self-organization method according to claim 10, wherein said decision power means a decision power for arranging an identification address provided in an intelligent controller having a minimum MAC address value; the list comprises an individual list, an individual list and a working list, wherein the individual list is an MAC address list of other functional computers directly connected with different network interfaces of a certain functional computer, the individual list is an MAC address list of other functional computers directly and indirectly connected with different network interfaces of the certain functional computer, the working list is a path list formed by the other functional computers and the network interfaces thereof, which are passed by the certain functional computer to a target functional computer, and the path comprises a shortest path and a backup path; the interconnection is performed at intervals.

12. The method of self-organization of discrete functional computer group as claimed in claim 11, wherein said electric devices are low voltage dc lamps, said identification addresses are 3-level IP addresses, i.e. intelligent controller, end-point controller and low voltage dc lamps, and said certain time is 0.1-60 seconds; or the electric equipment is a low-voltage direct-current lamp, the intelligent controller comprises a first-level intelligent controller and a second-level intelligent controller, the identification address is a 4-level IP address and comprises two-level intelligent controller addresses, and the time is 0.1-60 seconds.

13. The self-organizing method of discrete functional computer groups as claimed in claim 12, wherein the low voltage dc lamps are LED lamps, and after step 2), each functional computer first clears its list.

14. The self-organization method of discrete functional computer group as claimed in claim 13, wherein the intelligent controller converts the commercial power into low voltage dc power for the intelligent controller to supply power to the end controller and the controlled electric equipment; the intelligent controller is used for receiving and sending wireless communication signals.

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