KR101265341B1 - Method of logical address assignment for wireless network devices - Google Patents

Abstract

The present invention is to provide a method for allocating a unique address value of each device used to distinguish each device and to find a necessary path in order to communicate between the devices in a low power wireless communication network environment.

To this end, the present invention, in the address allocation method for each device in a low-power wireless communication network, selecting the first wireless communication device performing a network coordinator function; The first wireless communication device assigning its own address value and searching whether there is a first lower wireless communication device to be connected to the first wireless communication device; In response to a connection request (address value allocation request) of the first lower wireless communication device, assigning a new address value so as not to be duplicated based on a recently assigned address value and transmitting the new address value to the first lower wireless communication device; And when the second lower wireless communication device connected to the first lower wireless communication device requests a connection (address value allocation request) through the first lower wireless communication device, the first wireless communication device based on the latest assigned address value. And giving a new address value so as not to be duplicated, and transmitting the new address value to the second wireless communication device through the first lower wireless communication device.

Low power wireless communication, address allocation, centralized, wireless communication network, address value

Description

Method of logical address assignment for each device in low power wireless communication network {Method of logical address assignment for wireless network devices}

1 is an explanatory diagram showing a frame structure transmitted by one device;

2 is an explanatory diagram showing a beacon transmission situation that occurs when transmitting beacons between devices;

3 is a block diagram of a layer-specific low power wireless communication network to which the present invention is applied;

4 is an explanatory diagram of a first embodiment showing a logical address allocation method for each device according to the present invention;

5 is an explanatory diagram of a second embodiment showing a device-specific logical address allocation method according to the present invention;

6 is an explanatory diagram of a third embodiment showing a logical address allocation method for each device according to the present invention;

7 is an explanatory diagram of a fourth embodiment showing a logical address allocation method for each device according to the present invention;

8 is an explanatory diagram of a fifth embodiment showing a logical address allocation method for each device according to the present invention;

9 is a diagram for explaining a sixth embodiment of a device-specific logical address allocation method according to the present invention.

* Explanation of symbols on the main parts of the drawing

10 ~ 90: Wireless communication device

The present invention relates to a logical address allocation method for each device in a low power wireless communication network, and more particularly, to distinguish each device and find a necessary path for communication between devices in a low power wireless communication network. It relates to a method of assigning a unique address value of each device.

Currently, as objects and physical objects scattered in the living environment are gradually expanded to information objects, Ubiquitous Computing provides various new and convenient services by organically connecting humans, computers, and objects. There is a growing interest.

The ubiquitous computing environment starts from embedding computing, sensing, and communication functions in all things, and sensor network technology that performs sensing and control of the external environment of human beings is in the spotlight as a core technology.

In other words, Ubiquitous Sensor Network (USN) is to attach electronic tags to all things to recognize things and environment and to build and utilize real-time information through the network.

The sensor network occupies an important position in the realization of the ubiquitous era. In particular, the construction of ubiquitous networking environment in the home is very important because ubiquitous networking in the home will provide a great motive for building the national infrastructure.

Among the ubiquitous networking technologies, wireless communication technology is more suitable for the ubiquitous era than wired technology.

Low-power wireless communication network is one of the key element technologies for ubiquitous network where people, computers and things are connected together. It plays a role of connecting existing sensor network environment and physical real environment.

The low power wireless communication can take charge of such a technology, and the characteristics of the low power wireless communication network have advantages such as a transmission range within 10m, low power consumption, and a small size enough to be mounted on a sensor.

FIG. 1 is an explanatory diagram showing a frame structure transmitted by one device (frame structure of a single beacon wireless communication device) and shows a transmission interval 1a of a beacon sent by one device.

One wireless communication device has a section 1b for transmitting and receiving data after transmitting a beacon, and then has an inactive section 1c to reduce power consumption. At this time, the interval is constant and the same applies to the next beacon transmission, data transmission and reception, and inactivity section. That is, the beacon transmission section 1a, the data transmission / reception section 1b, and the inactivity section 1c are repeated at regular intervals.

In the inactivity section 1c of the wireless communication device, data can be transmitted, but not received. If the beacon transmission is at the far end of the network configuration, the beacon is required when connecting the device below the user. In this case, the beacon transmission time is not required after a certain time.

FIG. 2 is an explanatory diagram illustrating a beacon transmission situation that occurs when a beacon is transmitted between devices, and a beacon transmission situation between two wireless communication devices that occurs when a beacon is transmitted between wireless communication device 1 and 2 (parent-child superframe position) Relationship).

The first wireless communication device transmits a beacon to the second wireless communication device, and the second wireless communication device that receives this calculates the beacon transmission time of the first wireless communication device based on the received beacon of the first wireless communication device. In addition, it calculates its beacon transmission time by adding a certain fixed value determined in the low power wireless communication network. At this time, the calculated beacon transmission time of the second wireless communication device is adjusted so as not to overlap with the transmission time of the first wireless communication device.

As each wireless communication device is connected in this manner, an address value for identifying each wireless communication device is assigned. At this time, the address value distinguishes each wireless communication device, and when the data transmission / reception occurs, the address value can be used to determine the data transmission path or the destination to which the data is going. The present invention relates to an address assignment method of such a low power wireless communication device.

Currently, a technology widely used as a sensor network for low power wireless communication is IEEE 802.15.4, and the address value of this technology has 16 bits. That is, it means that up to 65,536 wireless communication devices can be assigned an address in one wireless communication area. When dealing with such a large number of low power wireless communication devices, the address assignment method becomes a very important factor in the construction of the low power wireless communication network.

Therefore, in accordance with the importance of the address allocation technology, in the low-power wireless communication network, the address value that can distinguish each wireless communication device can be efficiently distributed, and the scalability and flexibility according to the efficient distribution of the address value without limiting the service model There is an urgent need for a way to have.

The present invention has been proposed to meet the above demands, and in order to communicate between low power wireless communication network devices in a low power wireless communication network environment, a unique address value of each device used to distinguish each device and find a necessary path is assigned. The purpose is to provide a way to.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. It will also be readily apparent that the objects and advantages of the invention may be realized and attained by means of the instrumentalities and combinations particularly pointed out in the appended claims.

According to an aspect of the present invention, there is provided a method for allocating a device address in a low power wireless communication network, the method including: selecting an initial wireless communication device performing a network coordinator function; The first wireless communication device assigning its own address value and searching whether there is a first lower wireless communication device to be connected to the first wireless communication device; In response to a connection request (address value allocation request) of the first lower wireless communication device, assigning a new address value so as not to be duplicated based on a recently assigned address value and transmitting the new address value to the first lower wireless communication device; And when the second lower wireless communication device connected to the first lower wireless communication device requests a connection (address value allocation request) through the first lower wireless communication device, the first wireless communication device based on the latest assigned address value. And giving a new address value so as not to be duplicated, and transmitting the new address value to the second wireless communication device through the first lower wireless communication device.

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In the present invention, it is intended to increase the efficiency of the address allocation method by centrally managing address values centering on the first generated wireless communication device (first wireless communication device).

That is, when the first wireless communication device directly manages such an address value and uses an efficient address allocation method in communication between the wireless communication devices, address distribution efficiency is improved, and communication efficiency and communication with the device are smoothly performed. Do it. If the address allocation method is configured centrally, direct management can be achieved and safety in wireless communication can be achieved.

The foregoing and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, in which: There will be. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In order to effectively address a low power wireless communication network, the present invention allows the first generated wireless communication device (first wireless communication device) to control the allocation of an address used for communication between all the low power wireless communication devices and directly distribute the address value. do. That is, the first wireless communication device manages the address value, and the other wireless communication devices go through the procedure of requesting and confirming the address value from the first wireless communication device, such as duplicate address values in the distribution of the address value. Increases the efficiency of address allocation so that it does not occur. That is, the first wireless communication device centrally allocates addresses, thereby improving the efficiency and stability of address distribution of all wireless communication devices in the low power wireless communication area.

It is assumed that a low power wireless communication network environment having a hierarchical mesh structure as shown in FIG. 3 is constructed, and it is assumed that the wireless communication device 10 is generated first.

The address value used in the present invention means an address of a wireless communication device, and for example, a 16-bit address is used. However, hereinafter, it is assumed that address values are generated in Arabic numeral order and are increased by 1 for convenience of explanation.

In addition, in FIG. 3, it is assumed that each wireless communication device is connected in alphabetical order.

The first radio communication device 10 is assigned to the address value 1 'self' because it first occurred in the area of the low power radio communication network.

For example, in a hierarchical tree-structured low power wireless communication network, the first wireless communication device 10 broadcasts a beacon and sequentially scans available frequency channels to find the wireless communication device to which it is connected in a given space. At this time, it is determined by the beacon received in each frequency channel. If it is determined that there is no accessible wireless communication device to which it is connected (i.e., no beacon is received for all frequency channels), then the first wireless communication device 10 is coordination for the new sensor network. Function (network coordinator function). The first radio communication device 10 selects " 1 " as its address value, sets parameters for a new network, and then broadcasts the corresponding network information including its own address value in a beacon. Here, a 16-bit address is used as the address value.

As described above, the first wireless communication device 10 sets a parameter for a new network, and then broadcasts corresponding network information including its own address value in a beacon.

Thereafter, the new wireless communication device 20 to 90 searches (scans) whether there is a wireless communication network device to which it is connected, and joins the network through the connection with the first wireless communication device 10. At this time, participation in the network is made by assigning a unique address value to the first wireless communication device 10 to the new wireless communication device 20 to 90, and the first wireless communication device 10 and the address to assign the address value. A logical link is established between the new wireless communication devices 20 to 90 assigned the values.

Through this process, a hierarchical tree-structured low power wireless communication network environment can be established, and most of the wireless communication devices 20, 40, and 70, except for the first wireless communication device 10, are lower level wireless communication devices and higher levels. It becomes a wireless communication device. However, the lowest radio communication device 30, 50, 60, 80, 90 does not have any lower radio communication device.

As the wireless communication devices 20 to 90 participating in the network increase vertically, the network tree also increases gradually. In this case, the size of the network is determined by the number of hops from the first wireless communication device 10 to the outermost wireless communication device 30, 50, 60, 80, 90, which is defined as the network depth level. . For example, a radio communication device n hops away from the original radio communication device 10 becomes a radio communication device having a depth level of "n". However, the first wireless communication device 10 has a depth level of "0" because it corresponds to the reference point.

The network configuration by the new wireless communication devices 20 to 90 is made by assigning a unique address value to the corresponding wireless communication device through a connection connection process.

Next, an address value allocation process for each wireless communication device 20 to 90 will be described in more detail with reference to FIGS. 4 to 9.

As shown in FIG. 4, the initial radio communication device 10 searches (beacon broadcast and scan) whether there are radio communication devices to be connected to it. In addition, the wireless communication devices 20 to 40 also search for (beacon broadcast and scan) whether there is a wireless communication device 10 to which they are connected after the power is turned on, and thus the first wireless communication device 10 and the wireless communication device. 20 to 40 discover each other through discovery, and the lower wireless communication devices 20 to 40 generated after the first wireless communication device 10 are connected to the first wireless communication device 10 that is the upper device. Request (address value request) (401, 403, 405).

Then, since the first wireless communication device 10 was created first (the first wireless communication device), it will make a response (response to the connection request) to connect the wireless communication devices 20 to 40 to their subordinates. (402, 404, 406), addresses are assigned (address value assignment) in the order of wireless communication device " 20 ", " 30 ", " 40 ".

At this time, in the method of allocating addresses (402, 404, 406), the first radio communication device 10 first assigns an address to the radio communication network devices 20 to 40 other than the self, avoiding '1', which is its own address value. For example, the lower wireless communication device 20 is given an 'address value 2' rather than an 'address value 1' (402). After that, the first wireless communication device 10 stores that the address value 2 is used. This is to give an address value other than the address value used for the wireless communication device requesting the address value next time.

Thereafter, the wireless communication device 10 and the wireless communication device 30 discover each other through discovery (beacon broadcasting and scanning process), and the wireless communication device 30 establishes a connection with the first wireless communication device 10. Upon request (403), the first wireless communication device 10 responds to this to give the wireless communication device 30 an 'address value 3' following the most recently updated 'address value 2' (404). The first wireless communication device 10 stores that the address value 3 is used.

In the same manner, the initial radio communication device 10 assigns the address value 4 after the most recently updated 'address value 3' to the radio communication device 40 that has requested the connection 405 (406). The first wireless communication device 10 stores that the address value '4' is used.

In this manner, the first wireless communication device 10 continuously updates and stores the address value used so far, and transmits the next address value of the most recently updated address value to the wireless communication device requesting the address value. To grant.

Subsequently, as shown in FIG. 5, after the wireless communication device 50 is turned on, the wireless communication device 20 checks the wireless communication device 20 through a search and requests a connection (address value request) (501). .

That is, the wireless communication device 50 and the wireless communication device 20 identify each other through discovery (beacon broadcasting and scanning process), and the wireless communication device 50 requests the connection to the wireless communication device 20 (address Request value) (501). This is because the wireless communication device 20 sets a parameter for a new network and then broadcasts the corresponding network information including its own 'address value 2' as a beacon, so that the wireless communication device 50 has not been given an address value yet. Is to request a connection to the higher-level wireless communication device 20.

Then, since the wireless communication device 20 connects the wireless communication device 50 to the lower part, there is a wireless communication device that is newly connected to the first wireless communication device 10, and thus requests to assign an address value (502). In response to this, the first wireless communication device 10 checks the address value (the most recently updated address value) used so far after receiving the request, and gives a new 'address value 5' to which no collision will occur. In step 503, the wireless communication device 20 receiving the same gives the address value 5 to the wireless communication device 50 (504).

Now, as shown in FIG. 6, when the wireless communication device 60 is turned on, the wireless communication device 60 also checks the wireless communication device 20 by searching and requests a connection (address value request). (601).

That is, the wireless communication device 60 and the wireless communication device 20 identify each other through a search (beacon broadcasting and scanning process), and the wireless communication device 60 requests a connection to the wireless communication device 20 (address Request value) (601). This is because the wireless communication device 20 sets a parameter for a new network and then broadcasts the corresponding network information including its own 'address value 2' as a beacon, so that the wireless communication device 60 has not yet been given an address value. Is to request a connection to the higher-level wireless communication device 20.

Subsequently, when the reason for rejection of the connection request of the wireless communication device 60 does not occur, the wireless communication device 20 is newly connected to the first wireless communication device 10 while allowing the lower connection of the wireless communication device 60. Since there is a wireless communication device, a request is made to assign an address value (602).

In response to this, the first wireless communication device 10 checks the address value (the most recently updated address value) used so far after receiving the request (which stores the recently assigned 'address value 5'). A new 'address value 6' is assigned to the wireless communication device 20 to be transmitted (603), and the wireless communication device 20 receiving the new 'address value 6' is given to the wireless communication device 60. (604).

Currently, an address value is allocated to the wireless communication device 60, and the latest assigned address value of the first wireless communication device 10 is '6'.

Meanwhile, as shown in FIG. 7, the wireless communication device 70 turns on and searches for a nearby device to discover the wireless communication device 40 and requests a connection (701).

That is, the wireless communication device 70 checks each other through the discovery (beacon broadcasting and scanning process) between the wireless communication device 70 and the wireless communication device 40, and the wireless communication device 70 requests a connection to the wireless communication device 40 (address Request a value) (701). This is because the wireless communication device 40 sets a parameter for a new network and then broadcasts the corresponding network information including its own 'address value 4' as a beacon, so that the address value is not yet given to the wireless communication device 70. Is to request a connection to the higher-level wireless communication device 40.

Subsequently, when the reason for rejection of the connection request of the wireless communication device 70 does not occur, the wireless communication device 40 is newly connected to the first wireless communication device 10 while allowing the lower connection of the wireless communication device 70. Since there is a wireless communication device, a request is made to assign an address value (702).

In response to this, the first wireless communication device 10 checks the address value (the most recently updated address value) used so far after receiving the request (currently storing the recently assigned 'address value 6'). A new 'address value 7' is assigned to the wireless communication device 40 to be transmitted (703), and the wireless communication device 40 receiving the new address address 7 is assigned to the wireless communication device 70. (704).

At present, an address value is allocated to the wireless communication device 70, and the latest assigned address value of the first wireless communication device 10 is '7'.

Meanwhile, as shown in FIG. 8, the wireless communication device 80 turns on and searches for a nearby device, and discovers the wireless communication device 70 and requests a connection (801).

That is, the wireless communication device 80 and the wireless communication device 70 check each other through a search (beacon broadcast and scan process), and the wireless communication device 80 requests a connection to the wireless communication device 70 (address Request a value). This is because the wireless communication device 70 sets a parameter for a new network and then broadcasts the corresponding network information including its own 'address value 7' as a beacon, so that the address value has not been given yet. Is to request a connection to the higher-level wireless communication device 70.

Subsequently, when the reason for rejection of the connection request of the wireless communication device 80 does not occur, the wireless communication device 70 permits the lower connection of the wireless communication device 80 to the wireless communication device 40 which is a higher device. Since there is a newly connected wireless communication device, a request is made to allocate an address value (802), and the wireless communication device 40 transmits the first wireless communication device 10 to request an address value (803).

In response to this, the first wireless communication device 10 checks the address value (the most recently updated address value) used so far after receiving the request (which stores the recently assigned 'address value 7'). A new 'address value 8' is given to the wireless communication device 40 to be transmitted (804), and the received wireless communication device 40 is transmitted to the wireless communication device 70 (805). The wireless communication device 70 gives an address value 8 to the wireless communication device 80 (806).

Currently, an address value is allocated to the wireless communication device 80, and the latest assigned address value of the first wireless communication device 10 is '8'.

In this process, the wireless communication device 80 receives an address using the latest assigned address value of the first wireless communication device 10 through the wireless communication devices 40 and 70.

On the other hand, as shown in Figure 9, the wireless communication device 90 is turned on (On) to search for peripheral devices, through the discovery to find the wireless communication device 40 and requests the connection (901).

That is, the wireless communication device 90 and the wireless communication device 40 check each other through discovery (beacon broadcasting and scanning process), and the wireless communication device 90 requests the connection to the wireless communication device 40 (address Request a value (901). This is because the wireless communication device 40 sets a parameter for a new network and then broadcasts the corresponding network information including its own 'address value 4' as a beacon, so that the wireless communication device 90 has not been given an address value yet. Is to request a connection to the higher-level wireless communication device 40.

Subsequently, when the reason for rejection of the connection request of the wireless communication device 90 does not occur, the wireless communication device 40 is newly connected to the first wireless communication device 10 while allowing the lower connection of the wireless communication device 90. Since there is a wireless communication device, a request is made to assign an address value (902).

In response to this, the first wireless communication device 10 checks the address value (the most recently updated address value) used so far after receiving the request (currently storing the recently assigned 'address value is 8'). A new 'address value 9' is given to the wireless communication device 40 to be transmitted to the wireless communication device 40 (903), and the wireless communication device 40 receiving the new 'address value 9' is given to the wireless communication device 90. (904).

In this way, all wireless communication devices form a low power wireless communication network without conflicting address values.

In the case of using the above-described address allocation method, all devices go through a procedure of requesting an address value from the first wireless communication device 10 even when the power is turned on at the same time and a connection request is made due to the characteristics of the network. ) Assigns one address value at a time, so that the address assignment effect is stable to the lower wireless communication devices (20 ~ 90) so as not to cause duplication of address values while maintaining the latest assigned address value. Is coming.

The method of the present invention as described above may be embodied as a program and stored in a computer-readable recording medium (such as a CD-ROM, a RAM, a ROM, a floppy disk, a hard disk, or a magneto-optical disk). Such a process can be easily carried out by those skilled in the art and will not be described in detail.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The present invention is not limited to the drawings.

The present invention as described above, in the address allocation method, the first device of the first generated low-power wireless communication network by sequentially assigning the addresses of all the devices connected to it, it is effective to increase the efficiency in address distribution have.

In addition, the present invention can stabilize the network configuration because address conflicts do not occur between devices having address distribution and different service models, and reliability can be improved because address values do not occur in communication between devices. In addition, the connection of many devices has the advantage of increasing the robustness of the low-power wireless communication network.

Claims (12)

delete In the address allocation method for each device in a low power wireless communication network, Selecting an initial wireless communication device to perform a network coordinator function; The first wireless communication device assigning its own address value and searching whether there is a first lower wireless communication device to be connected to the first wireless communication device; In response to a connection request (address value allocation request) of the first lower wireless communication device, assigning a new address value so as not to be duplicated based on a recently assigned address value and transmitting the new address value to the first lower wireless communication device; And When the second lower wireless communication device connected to the first lower wireless communication device requests a connection (address value assignment request) through the first lower wireless communication device, the first wireless communication device is duplicated based on the latest assigned address value. Assigning a new address value so as not to be transmitted to the second wireless communication device through the first lower wireless communication device; Device-specific logical address allocation method in a low power wireless communication network comprising a. The method of claim 2, The second lower wireless communication device, And transmits a connection request (address value allocation request) from a third lower wireless communication device connected to the first lower wireless communication device to the first wireless communication device through the first lower wireless communication device, and transmits the address value allocated by the first wireless communication device. And receiving from the first lower wireless communication device and transmitting to the third lower wireless communication device. The method of claim 3, wherein The second lower wireless communication device forms a hierarchical mesh structure with the third lower wireless communication device connected to the second lower wireless communication device. The third lower level wireless communication device transmits a connection request (address value allocation request) from a lower level wireless communication device connected to the upper level wireless communication device, and transmits an address value allocated by the first wireless communication device to the upper level wireless communication device. And a relay function for receiving the relay from the wireless communication device, and transmitting the address value to the corresponding wireless communication device, and finally transmitting the address value to the corresponding wireless communication device. The method according to any one of claims 2 to 4, The first wireless communication device, And an address allocation table, and sequentially assigning addresses to a wireless communication device requesting a connection by using the address allocation table. 6. The method of claim 5, The first wireless communication device, A device-specific logical address assignment method in a low power wireless communication network for storing an address without a duplicate, and storing the most recently used address value after the address assignment as the latest assigned address value. The method of claim 6, Each wireless communication device, A device-specific logical address allocation method in a low power wireless communication network, which recognizes each other through a beacon broadcasting and scanning process. The method of claim 6, In selecting the first wireless communication device, In a low power wireless network, if it is determined that there is no accessible wireless device to which it is connected, ie if no beacon is received for all frequency channels, it identifies itself as the first wireless device to perform the network coordinator function. Device-specific logical address allocation. The method of claim 6, The first wireless communication device, A method for allocating device-specific logical addresses in a low power wireless communication network, in which centralized management of address values of all lower wireless communication devices is performed on a hierarchical wireless communication network. The method of claim 9, The address value is A device-specific logical address assignment method in a low power wireless communication network that is a 16-bit address. delete delete

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