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

Abstract

The invention relates to an automatically organized discrete functional computer group system, a method and application, in particular to a computer group with specific functions, wherein functional computers are respectively provided with a unique code, a storage space, an intelligent controller with a CPU and a tail end controller; the intelligent controller comprises a network control module, the network control module comprises a self-organization module, the identification address generation module in the self-organization module acquires decision power according to a relevant mechanism, and arranges identification addresses of electric equipment connected with other intelligent controllers and end controllers under the condition of decision power, so that components in the functional computer have self-organization and management capabilities, a network administrator does not need to set and distribute addresses of network internal facilities after the network is connected, the problem of network connection of other equipment except a computer in the prior art is solved, and the application of network low-voltage circuit connection on various electric equipment is realized through self-organization.

Description

Automatic organized discrete function computer group system and method

The technical field is as follows:

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

Background art:

the network connection of the computer does not need special electrician to make circuit connection, but ordinary people without electrician qualification can complete the network connection, thus, the network connection and the network reconstruction are convenient.

The connection of the power grid is not only required to be connected by personnel with special electrician qualification, but also troublesome in the reconstruction of the connected electric lamp network, and the electric lamp network can not be changed by ordinary people at will.

In other ac power utility networks in daily life and daily work, such as a home ac power utilization equipment network (including low-voltage dc power utilization equipment such as computers), actually, these equipments can directly utilize low-voltage dc power, but since there is no power supply network for low-voltage dc power in a relatively narrow closed environment (such as a home, an office), it is necessary to convert ac power into low-voltage dc power at each power supply point for use by these equipments, so that the use of voltage transformation equipment is increased, thereby increasing the cost and wasting power resources.

However, in the existing organization of computer networks such as ethernet, a network administrator must assign IP addresses to connected ports, including static addresses and dynamic addresses, but when attempting to extend a network system such as a computer to other network applications, the problem that the administrator cannot assign network addresses is faced, because it is impossible to set a special administrator for the application facilities to assign network addresses, which is one of the reasons why the computer network has such a huge interconnection superiority but cannot be applied to other low-voltage dc facilities.

The invention content is as follows:

the invention solves the network connection obstacle of other devices except computers in the prior art, provides an automatically organized discrete functional computer group system, and also provides a self-organization method and application thereof in providing network service for low-voltage direct-current facilities.

The invention is realized by the following steps:

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.

The unique code is a MAC address, the identification address is an IP address, the related information comprises MAC address information and port position information, and the related mechanism comprises that the MAC address value is minimum, namely the decision authority is possessed.

The list generated by the list generation module 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 other functional computers and network interfaces thereof, which are passed by the certain functional computer to a target functional computer, the path comprises a shortest path and a backup path, and the connection module knows the connection condition of each network interface at intervals.

The electric equipment is a low-voltage direct-current lamp, the IP address is a 3-level IP address, namely the intelligent controller, the tail end controller and the low-voltage direct-current lamp, and the 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 IP address is a 4-level IP address comprising addresses of the two-level intelligent controllers, and the time is 0.1-60 seconds.

The end controller is provided with a network interface connected with the other end controller, a plurality of end controllers can form a string of communication series components, and the low-voltage direct-current lamp is an LED lamp.

The intelligent controller also 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 and transmit the power to the tail end controller and the electric equipment controlled by the tail end controller through the electric servomotor; the intelligent controller is provided with a wireless communication module for receiving and sending wireless communication signals.

The terminal controller comprises a network information transceiving module, a terminal computing module and a light-emitting industrial control module which are connected in sequence, the light-emitting industrial control module is connected with the low-voltage direct-current lamp through a digital control switch, the first control module transmits control information to the terminal computing module through the network information transceiving module, the terminal computing module transmits the control information to the light-emitting industrial control module according to an identification address, and the light-emitting industrial control module controls the corresponding low-voltage direct-current lamp.

The utility model discloses a light source, including the light source, the light source is used to control the light source, the terminal controller still includes a photometry industrial control module, photometry industrial control module links to each other with terminal calculation module and applied the photoreceptor respectively, it links to each other with the terminal controller to use the photoreceptor, and the response is with the low pressure direct current lamp light intensity that this terminal controller links to each other, photometry industrial control module reads the corresponding sensitization value of using the photoreceptor according to the control information of terminal calculation module to transmit for terminal calculation module, terminal calculation module transmits the sensitization value of using the photoreceptor for intelligent control's first control module through network information transceiver module.

The identification address generating module also arranges the identification address of each functional computer, stores the identification address in the storage module and informs the corresponding functional computer;

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.

The decision power refers to the decision power of arranging the identification address which is arranged on the intelligent controller with the 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.

The electric equipment is a low-voltage direct-current lamp, the IP address is a 3-level IP address, namely the intelligent controller, the tail end controller and the low-voltage direct-current lamp, and the 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 IP address is a 4-level IP address comprising addresses of the two-level intelligent controllers, and the time is 0.1-60 seconds.

The low-voltage direct current lamp is an LED lamp, and after the step 2) is finished, the computer with each function firstly clears the respective list.

The intelligent controller converts commercial power into low-voltage direct current for supplying power to the intelligent controller and transmitting the power to the tail-end controller and the electric equipment controlled by the tail-end controller; the intelligent controller is used for receiving and sending wireless communication signals.

The automatically organized discrete functional computer group is applied to control low-voltage direct current lamps or other household appliances.

The automatically organized discrete functional computer group is applied to control of power consumption offices and machine equipment.

The technical effects are as follows:

the functional computer of the invention comprises an intelligent controller with a network interface, a network control module in the intelligent controller comprises a self-organization module for automatically organizing functional computer groups, and the identification address generation module in the self-organization module acquires decision-making power according to the relevant mechanism, and arranges the identification addresses of the electric equipment connected with other intelligent controllers and the end controller under the condition of decision power, the identification address is stored in the storage module and is informed to the corresponding functional computer, so that components in the functional computer have the self-organization and management capabilities, a network administrator does not need to set and distribute addresses to internal facilities of the network after the network is connected, the network connection obstacles of other devices except the computer in the prior art are solved, and the application of the network low-voltage circuit connected to various electric devices is realized through self-organization.

Description of the drawings:

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

Fig. 2 is a block diagram of a low-voltage dc lamp controlled by a terminal controller.

FIG. 3 is a list of individuals.

Fig. 4 is a list of individual listings.

FIG. 5 is a work list.

The specific implementation mode is as follows:

fig. 1 is a schematic structural diagram of the present invention, which shows two intelligent controllers (for short, a disk a) as a functional computer and a terminal controller (for short, a disk C) connected to the two intelligent controllers, which is also a functional computer. And the intelligent controller can also be connected in a grading way, namely a first-grade intelligent controller (A disk for short) and a second-grade intelligent controller (B disk for short) are formed, so that a larger discrete functional computer group with more functional computers is formed. The functional computer refers to an intelligent controller and a tail end controller which are respectively provided with a unique code, a storage space and a CPU (central processing unit); the unique code may be a MAC address, for example.

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 tail end controller, and the network interfaces connected with the intelligent controller, the tail end controller and other intelligent controllers can be the same or different;

the end controller is provided with a network interface connected with the intelligent controller and is connected with electric equipment controlled by the intelligent controller, preferably, the end controller is provided with a network interface connected with the other end controller, a plurality of end controllers can form a string (daisy chain) of communication series components, the electric equipment can be an LED lamp or other low-voltage direct current lamps or other low-voltage direct current electric equipment, or electric equipment which is converted and outputs low-voltage direct current, such as a network television (applied to hotels) which only needs low-voltage direct current power supply, various low-voltage direct current sensors (applied to the internet of things), a low-voltage direct current card reader, a low-voltage direct current RFID card reader and the like; the low-voltage direct-current sensor can be a photoreceptor and the like, or various household appliances which are connected with a low-voltage direct-current module, whether before or after leaving a 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 operation, storage and network control, and the main network information transceiver 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 functional computer groups, and just with the self-organization module, the invention can not manually distribute IP addresses like a local area network and a local area network, does not like the random address distribution of the Internet, and can not control the electric equipment connected with the self-organization module, because the random address distribution of the Internet does not need to let computers in the network know the relationship among each other, and the self-organization module can establish the mutual organic relation and relationship among the functional computers in the network; the self-organizing module comprises a contact module, a response module and a second control module;

the contact module learns the connection condition of the 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 the network interfaces, 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 relation of each functional computer in the group system according to related information of connected functional computers stored in the storage module, the identification address generation module acquires decision power according to a related mechanism and arranges identification addresses of each functional computer and electric equipment connected with the end controller under the condition of decision power, wherein the identification addresses of the functional computers are arranged to be preferred, and the identification addresses are stored in the storage module and are notified to the corresponding functional computers; it is clear that, unlike the random assignment of addresses to computers on the internet, computers on the internet do not participate in the information communication link prior to the assignment of identified addresses. The identification address may be, for example, an IP address. The related information includes MAC address information and port location information, and the related mechanism is that the MAC address value is minimum, i.e. has the decision authority, although other mechanisms may be set, such as the number of MAC address values divisible by 2 min. The contact module can use RS-232, RS-485 and other general communication; asynchronous Communication Protocol may also be used for Communication.

The list generated by the list generation module includes an individual list, an individual list and a working list, the individual list is a MAC address list of other functional computers directly connected to different network interfaces of a certain functional computer, as shown in the list in fig. 3, the MAC address (i.e. factory number) of a certain functional computer (which may be an intelligent controller or an end controller) is 123456789, which has 6 network interfaces in total, and the network interfaces 2, 3 and 6 are respectively connected to three other functional computers (a disk or B disk numbers, or factory counterpart numbers). The individual list is a list of MAC addresses of other functional computers that are indirectly connected to different network interfaces (i.e., ports or network ports) of a functional computer (in the case of a B-disk), except for the MAC address of the functional computer directly connected to the network interface, as shown in fig. 4, that is, in the figure, the MAC addresses of the other functional computers connected to the other network interfaces of the directly connected functional computers are listed in the table, except for the MAC address of the functional computer directly connected to the network interface. The work list is a path list formed by other functional computers and network interfaces thereof through which a certain functional computer passes to a destination functional computer, see fig. 5, and the path recorded in fig. 5 is drawn based on the individual list of fig. 4, and reflects the path from the B-disk with the MAC address of 123456789 to each different functional computer. The individual is a functional computer, especially an intelligent controller. The working list is a network connection diagram of a group, the path comprises a shortest path and a backup path, and therefore the working list also comprises a list for backup and a temporary list.

The connection module learns the connection condition of each network interface at a plurality of time intervals. Therefore, once the function of a computer with a certain function is damaged, information exchange and control of other connection paths can be established through the backup path. Meanwhile, once the functional computer of the network interface where the originally damaged functional computer is located is recovered or replaced, the group can recover the original path.

The first control module executes the control of the electric equipment according to the identification address of the electric equipment in the storage module, and because the mutual relation and the identification address of each functional computer and the identification address of the electric equipment are established in the self-organization module, the first control module in the network control module can control different electric equipment according to different application requirements of the different electric equipment, and because the functional computers all have CPUs and storage spaces, different control software according to the functional requirements of the different electric equipment can be input, thereby realizing the control of various functions.

The IP address can be a 3-level IP address, namely an intelligent controller, a tail end controller and a low-voltage direct-current lamp, and the time for knowing the connection condition of each network interface is 0.1-60 seconds; of course, the intelligent controller may include a first-level intelligent controller and a second-level intelligent controller having different function levels, and in this case, the IP address is a 4-level IP address including a two-level intelligent controller address.

The intelligent controller further comprises a power module, wherein the power module converts commercial power into low-voltage direct current for the intelligent controller to supply power and transmit the power to the end controller and the electric equipment controlled by the end controller through the electric servomotor. The intelligent controller can also be provided with a wireless communication module for receiving and sending wireless communication signals, the module can be a part of the main network information transceiver module and is connected with the network control module through other communication means of the module, and can also be an independent module independent of the main network information transceiver module and is connected with the network control module, and the module transmits control commands to the network control module and converts the control commands of the network control module into wireless signals to be transmitted.

Referring to fig. 2, the end controller includes a network information transceiver module, an end computing module and a light emitting industrial control module, which are connected in sequence, and the light emitting industrial control module is connected with the low-voltage dc lamp through a digital control switch.

Corresponding to the products of the discrete functional computer group which is automatically organized, the invention also relates to a self-organization method of the discrete functional computer group, and the functional computers in the method are consistent with the above and are not repeated. 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 (A disk and B disk) with 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, and a list of mutual identification and connection relations is established according to the relevant information of each functional computer, wherein 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.

The decision power refers to the decision power of the intelligent controller with the minimum MAC address value; the list comprises an individual list (see fig. 3), an individual list (see fig. 4) and a working list (see fig. 5), 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 a certain functional computer, the working list is a path list formed by other functional computers and network interfaces thereof which are passed by a 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.

The electric equipment is a low-voltage direct current lamp, such as an LED lamp. The IP addresses are 3-level IP addresses, namely an intelligent controller, a tail end controller and a low-voltage direct-current lamp, and the 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 IP address is a 4-level IP address comprising addresses of the two-level intelligent controllers, and the time is 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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