KR101120914B1 - Wireless network apparatus having function variable allocating data trnasmission duration and method thereof - Google Patents

Abstract

The present invention relates to a wireless network device having a variable allocation function of a data transmission period for dynamically allocating an uplink period for transmitting data to at least one end device in a coordinator, and to a method for allocating the data transmission period thereof. At least one end device transmitting predetermined device information, and a network is formed according to a connection request of the at least one end device, and an uplink data transmission period of the at least one end device initially according to the device information And a coordinator for reallocating the uplink data transmission period of the at least one end device by comparing the data transmission period used for data transmission from the at least one end device with the allocated data transmission period. It provides a wireless network device and a method having a variable allocation function of the data transfer period, characterized.

Wireless Network, Up Link, Reallocation

Description

Wireless network device with variable allocation of data transmission period and method for allocating data transmission period {WIRELESS NETWORK APPARATUS HAVING FUNCTION VARIABLE ALLOCATING DATA TRNA

The present invention relates to a wireless network device and a method for allocating the same, and more particularly, to a wireless network device having a variable allocation function of a data transmission period for dynamically allocating an uplink period for transmitting data to at least one end device in a coordinator. And a data transmission period allocation method thereof.

In general, there are various types of networks, including wired and wireless.

Wired networks of such communication networks include local area networks (LAN), DSL networks, and cable networks. In contrast, wireless networks include cellular telephone networks, terrestrial mobile wireless networks, and satellite transport networks.

Meanwhile, the wireless networks described above may be used in a system for transmitting data of a sensor in real time.

In such a sensor network, it is common to transmit only sensor data through unidirectional communication. However, bidirectional communication is essential if any action must be taken in accordance with sensor data.

In general, when performing data transmission for two-way communication in the sensor network, the period allocated to the uplink and the downlink is fixed, so that it is difficult to transmit data of a desired length and the period is fixed even if there is no data to be transmitted. There is a wasteful problem.

In order to solve the above problems, an object of the present invention is to provide a wireless network device having a variable allocation function of a data transmission period for dynamically allocating an uplink period for transmitting data to at least one end device in a coordinator and a data transmission period thereof. To provide an allocation method.

In order to achieve the above object, one technical aspect of the present invention is to form a network according to the connection request of at least one end device and at least one end device for transmitting a predetermined device information when the network connection request; And initially assign a data transmission period of the at least one end device according to the device information, and then compare the data transmission period used for data transmission with the at least one end device and the allocated data transmission period. It is to provide a wireless network device having a variable allocation function of the data transmission period, characterized in that it comprises a coordinator for reallocating the data transmission period of one end device.

According to one technical aspect of the present invention, the coordinator compares the data transmission period used for data transmission from the at least one end device with the allocated data transmission period, and thus the data transmission period using the allocated data transmission period. If it is short, the data transmission period of the at least one end device may be reallocated by increasing the data transmission period using an exponential weighted moving average (EWMA) method.

According to one technical aspect of the present invention, the coordinator compares the data transmission period used for data transmission from the at least one end device with the allocated data transmission period, and the allocated data transmission period is greater than the used data transmission period. If long, an exponential weighted moving average (EWMA) method may be used to reduce the data transmission period and reallocate the data transmission period of the at least one end device.

According to one technical aspect of the present invention, if the reassigned data transmission period is less than the initial allocated data transmission period, the data transmission period of the at least one end device may be reassigned to the initial allocated data transmission period. have.

According to one technical aspect of the present invention, the coordinator may allocate a data transmission period by transmitting a sync packet to the at least one end device.

According to one technical aspect of the present invention, the coordinator transmits a sync packet to the at least one end device to allocate a data transmission period, and if the allocated data transmission period is shorter than the used data transmission period, Transfer to reassign the data transfer period.

According to one technical aspect of the present invention, the device information may include a device type indicating a type of device, a slot size to be used, and a transmission period for transmitting data.

According to one technical aspect of the invention, the data transmission period may be an uplink data transmission period in which the at least one end device transmits data to the coordinator.

In order to achieve the above object, another technical aspect of the present invention is to provide a network connection requesting at least one end device to the coordinator to transmit a predetermined device information, the coordinator according to the device information Initially allocating a data transmission period of the at least one end device, and wherein the coordinator compares the data transmission period used for data transmission from the at least one end device with the allocated data transmission period. A method of allocating a data transmission period of a wireless network, the method comprising: reallocating a data transmission period of a device.

According to another technical aspect of the present invention, the step of reallocating the data transfer period is performed by the coordinator comparing the allocated data transfer period with the data transfer period used for data transfer from the at least one end device. If the used data transmission period is shorter than the used data transmission period, the data transmission period of the at least one end device may be reallocated by increasing the data transmission period using an exponential weighted moving average (EWMA) method.

According to another technical aspect of the present invention, the step of reallocating the data transmission period is performed by the coordinator comparing the allocated data transmission period with the data transmission period used for data transmission from the at least one end device. If the used data transmission period is longer than the used data transmission period, an exponential weighted moving average (EWMA) method may be used to reduce the data transmission period and reallocate the data transmission period of the at least one end device.

According to another technical aspect of the present invention, the allocating of the data transmission period may include assigning a data transmission period by the coordinator transmitting a sync packet to the at least one end device.

According to another technical aspect of the present invention, the reassigning of the data transmission period may include: the coordinator transmits a sync packet to the at least one end device to allocate a data transmission period, If it is shorter than the used data transmission period, the sub sync packet may be transmitted to reallocate the data transmission period.

According to another technical aspect of the present invention, the step of reallocating the data transmission period may allow the coordinator to retransmit the data transmission period by transmitting a sync packet to the at least one end device.

According to another technical aspect of the present invention, the step of reallocating the data transmission period may include the coordinator returning to the initial allocated data transmission period when the reallocated data transmission period is less than the initially allocated data transmission period. The data transmission period of the at least one end device may be reallocated.

According to the present invention, the coordinator dynamically allocates an uplink period for transmitting data to at least one end device, thereby transmitting data of a desired length and preventing waste of radio resources.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a connection procedure diagram illustrating a network connection in a wireless network of the present invention.

Referring to FIG. 1, the wireless network 100 of the present invention may include a coordinator 110 and at least one end device 120.

The end device 120 may request a network connection from the coordinator 110 to form a network.

In this connection procedure, the end device 120 requests a beacon to the coordinator 110 to check whether there is a coordinator connected to the network around the coordinator 110 transmits a beacon to the end device 120.

Thereafter, the end device 120 requests a network connection to the coordinator 110 so that the coordinator 110 sends a connection response to the end device 120 to form a network. At this time, the end device 120 transmits its device information to the coordinator 110 when the network connection request, the device information indicating the type of the device, the slot size and the data to transmit the device information It may include a transmission period.

2 is a schematic structural diagram of a wireless network of the present invention.

Referring to FIG. 2 together with FIG. 1, after the network is formed in the wireless network of the present invention, the coordinator 110 transmits and receives data with the end device 120, and the coordinator 110 generates a sink to produce the end device 120. Notify that there is data to be transmitted to the terminal, and transmit the first data or the second data to the end device 120 by varying the downlink data transmission period according to the size of the data to be transmitted.

Thereafter, when there is data to be transmitted to the coordinator 110, the end device 120 transmits data to the coordinator 110 according to the uplink data transmission period. In this case, the uplink data transmission period may be determined by the sink generated by the coordinator 110.

If the amount of data to be transmitted by the end device 120 exceeds the allocated uplink data transmission period, the end device 120 sends a resource request to the coordinator 110, the coordinator 110 generates a sub-sink So that unsent data can be sent to the end device.

The coordinator 110 then reallocates the data transmission period of the end device 120.

3 is a flowchart illustrating a method of allocating a data transmission period in a wireless network of the present invention.

1 and 2, referring to FIG. 3, the end device 120 requests a network connection to the coordinator 110 (S10), and the coordinator 110 forms a network with the end device 120. An initial data transmission period is allocated based on the device information from the end device 120 (S20).

Thereafter, when data is transmitted from the end device 120, the actual data transmission period is compared with the allocated data transmission period. Reallocate the transmission period (S31). At this time, if the reassigned data transmission period is shorter than the initially allocated data transmission period, the data transmission period of the end device 120 is reassigned to the initially allocated data transmission period (S32).

The exponential weighted moving average (EWMA) method described above can be represented by the following equation.

(Equation)

EWMA _t = λ Y _t + (1-λ) EWMA _{t -1}

Here, t is a natural number, EWMA ₀ is an average data transfer period, Y _t is a data transfer period when _t is a number, and λ is a constant for determining the depth of the EWMA memory and may be set to be greater than 0 and less than 1. The above-described exponentially weighted moving averages will be omitted in a more well-known manner.

As described above, according to the present invention, it is possible to securely send data to be sent by reallocating a data transmission period according to the amount of data uplinked from the end device, and efficiently utilize radio resources.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the particular forms disclosed. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1 is a connection procedure diagram illustrating network connection in a wireless network of the present invention.

2 is a schematic structural diagram of a wireless network of the present invention.

3 is a flowchart illustrating a method of allocating data transmission periods in a wireless network of the present invention.

<Detailed Description of Major Symbols in Drawing>

100 ... Wireless Network 110 ... Coordinator

120 ... end devices

Claims (17)

At least one end device configured to transmit preset device information in a network connection request; And Forming a network according to the connection request of the at least one end device, initially allocating a data transmission period of the at least one end device according to the device information, and then used for data transmission from the at least one end device Coordinator for varying and reallocating the data transmission period of the at least one end device by comparing the data transmission period and the allocated data transmission period Wireless network device having a variable allocation function of the data transmission period comprising a. The method of claim 1, The coordinator compares the data transmission period used for data transmission from the at least one end device with the allocated data transmission period, and an exponential weighted moving average if the allocated data transmission period is shorter than the used data transmission period; EWMA) method to increase the data transmission period to reallocate the data transmission period of the at least one end device, the wireless network device having a variable allocation function of the data transmission period. The method of claim 1, The coordinator compares a data transmission period used for data transmission from the at least one end device with an allocated data transmission period and an exponential weighted moving average if the allocated data transmission period is longer than the used data transmission period; EWMA) method to reduce the data transmission period to reallocate the data transmission period of the at least one end device, the wireless network device having a variable allocation function of the data transmission period. The method of claim 1, And the coordinator transmits a sync packet to the at least one end device to allocate a data transmission period. 3. The method of claim 2, The coordinator transmits a sync packet to the at least one end device to allocate a data transmission period, and if the allocated data transmission period is shorter than the used data transmission period, the coordinator transmits a sub sync packet to reallocate the data transmission period. A wireless network device having a variable allocation function of a data transmission period. The method of claim 1, wherein the device information is A device type indicating a type of device; Slot size to be used; And Transmission cycle for sending data Wireless network device having a variable allocation function of the data transmission period comprising a. The method of claim 1, And said data transmission period is an uplink data transmission period in which said at least one end device transmits data to said coordinator. The method of claim 3, The coordinator reallocates the data transmission period of the at least one end device to the initial allocated data transmission period when the reassigned data transmission period is less than the initially allocated data transmission period. Wireless network device with variable assignment function. At least one end device requesting a network connection by transmitting preset device information to a coordinator; The coordinator initially allocating a data transmission period of the at least one end device according to the device information; And The coordinator variably reassigning the data transmission period of the at least one end device by comparing the data transmission period used for data transmission from the at least one end device with the allocated data transmission period. Method for allocating a data transmission period of a wireless network comprising a. 10. The method of claim 9, wherein reassigning the data transfer period An exponential weighted moving average if the coordinator compares the data transmission period used for data transmission from the at least one end device with the allocated data transmission period and the allocated data transmission period is shorter than the used data transmission period; And reallocating the data transmission period of the at least one end device by increasing the data transmission period using the EWMA) method. 10. The method of claim 9, wherein reassigning the data transfer period An exponential weighted moving average if the coordinator compares the data transmission period used for data transmission from the at least one end device with the allocated data transmission period and the allocated data transmission period is longer than the used data transmission period; EWMA) method to reduce the data transmission period to reallocate the data transmission period of the at least one end device. 10. The method of claim 9, wherein allocating the data transmission period And assigning a data transmission period by the coordinator transmitting a sync packet to the at least one end device. 11. The method of claim 10, wherein reallocating the data transmission period The coordinator transmits a sync packet to the at least one end device to allocate a data transmission period, and if the allocated data transmission period is shorter than the used data transmission period, the coordinator transmits a sub sync packet to reallocate the data transmission period. The data transmission period allocation method of the wireless network. 12. The method of claim 11, wherein reassigning the data transfer period And the coordinator transmits a sync packet to the at least one end device to reallocate a data transmission period. The method of claim 9, wherein the device information is A device type indicating a type of device; Slot size to be used; And Transmission cycle for sending data Method of allocating a data transmission period of a wireless network comprising a. 10. The method of claim 9, And said data transmission period is an uplink data transmission period in which said at least one end device transmits data to said coordinator. 12. The method of claim 11, wherein reassigning the data transfer period The coordinator reallocates the data transmission period of the at least one end device to the initial allocated data transmission period when the reassigned data transmission period is less than the initially allocated data transmission period. How to assign a delivery period.

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