KR20070049508A - Method of controlling tx power of network device in zigbee system - Google Patents

Abstract

The present invention relates to a method for controlling the transmit power level of a network device in a Zigbee system requiring low power characteristics. According to an aspect of the present invention, there is provided a method of controlling transmission power of a network device in a ZigBee system including a network coordinator and at least one network device in wireless communication with the network coordinator. Delivering; Detecting a received signal strength indication value (RSSI) of the signal at the network coordinator; Generating, at the network coordinator, a transmission power level control value by comparing the received signal strength indication value with a signal strength value that can be received by the coordinator; Forwarding the transmit power level control value from the network coordinator to the network device; And transmitting, at the network device, a signal controlled according to the transmission power level control value.

ZIGBEE, Network Coordinator, Network Devices, Transmit Power Levels

Description

METHOOD OF CONTROLLING TX POWER OF NETWORK DEVICE IN ZIGBEE SYSTEM}

1 is a block diagram of a conventional Zigbee system.

2 is a flowchart illustrating a method of controlling a transmission power level of a network device in a Zigbee system according to an embodiment of the present invention.

3 is a diagram illustrating a packet frame of a signal used in a Zigbee system.

* Explanation of symbols for main parts of drawings *

11: network coordinator 12: network device

31: MAC header 311: frame control field

311-1: Reserved bits

The present invention relates to a method of controlling a transmission power level of a network device in a Zigbee system, and more particularly, to a received signal strength indication for a signal received after a network coordinator receives a signal transmitted from a network device in a Zigbee system. The present invention relates to a method for controlling a transmit power of a network device in a Zigbee system that detects a received signal strength indication (RSSI) and controls a transmit power level of the network device according to the received signal strength value.

ZigBee, a wireless personal area network (WPAN) technology, is a personal wireless network specification for 2.4GHz-based home automation and data featuring low power, low cost and low speed. Progressed. Referring to the above standard, Zigbee uses 2.4GHz, 915MHz, and 868MHZ frequency bands, and 250kbps (16 channels in 2.4GHz ISM band) and 40kbps / 20kbps (10 channels / 868MHz band in 915MHz band) for each frequency. Channels), and the modem method is DSSS (Direct Secure Spread Spectrum), which transmits data at a speed of 20 ~ 250kbps within a radius of 30m, and connects up to 255 devices to one wireless network. In addition, large-scale wireless sensor networks can be constructed indoors and outdoors.

ZigBee has the advantage of being able to consume very low power, compared to other WPAN technologies such as Bluetooth or Ultra Wide Band (UWB), and simplifying the configuration of wireless transceivers, enabling the lowest chipset price. It is a competitive short-range wireless communication technology in the area of vertical applications such as sensor networks.

For example, the introduction of ZigBee in lighting, fire detection, heating and cooling systems, etc., allows building managers to remotely manage and control building systems through portable devices rather than management offices.

1 illustrates an example of a configuration of a wireless private network according to the ZigBee technology, wherein a wireless private network is connected to one network coordinator 11 and the network coordinator 11 to transmit and receive data. Device 12.

In the configuration of such a wireless private network, the network coordinator 11 is provided in a main control device of a computer or a home network, and performs control of transmission and reception of data to a plurality of network devices 12, and a plurality of network devices 12. Is a part that inputs and outputs actual data. In the case of home automation, heating, ventilation, air conditioner, security, light or sensor is applicable.

In this ZigBee system, the network coordinator 11 is always powered up to communicate with and manage multiple network devices 12, and thus does not require separate power management. In contrast, the plurality of network devices 12 operate with the receiver turned off for most of the time except for the time required for synchronization to minimize power consumption. Therefore, it can be said that the low power characteristic of the Zigbee system greatly depends on the operating method of the network device 12.

However, in the conventional Zigbee system, no technique is provided for controlling the power level of this transmitted signal when transmitting the signal from the network device 12 to the network coordinator. Thus, power management has typically been accomplished by transmitting signals at the maximum power level that the network device 12 can transmit, or by manually adjusting the transmit power levels of all network devices 12 by the operator of the network.

Such a conventional power management method has a problem in that power management is inefficient when the network device takes maximum transmission power, or the transmission level is controlled by the operator's subjective judgment and manual operation.

The present invention has been made to solve the above-mentioned problems of the prior art, the object of which is to detect a received signal strength value for the received signal after the network coordinator receives a signal transmitted from the network device in a Zigbee system, The present invention provides a method for controlling transmission power of a network device in a Zigbee system capable of controlling the transmission power level of the network device according to the received signal strength value.

The present invention as a technical configuration for achieving the above object,

In the Zigbee system consisting of a network coordinator and at least one network device in wireless communication therewith, the method for controlling the transmission power of the network device,

Delivering a signal having a predetermined power level from the network device to the network coordinator;

Detecting a received signal strength indication value (RSSI) of the signal at the network coordinator;

Generating, at the network coordinator, a transmission power level control value by comparing the received signal strength indication value with a signal strength value that can be received by the coordinator;

Forwarding the transmit power level control value from the network coordinator to the network device; And

In the network device, there is provided a transmission power control method of a network device in a Zigbee system comprising the step of transmitting a signal controlled according to the transmission power level control value.

In a preferred embodiment of the present invention, the step of detecting the received signal strength indication value is a step of detecting a received signal strength indication value of a signal received a plurality of times and calculating an average value thereof.

In one embodiment of the present invention, the transmission power level control value is a transmission signal of the network device such that a value obtained by adding a predetermined margin value to a signal power level that can be received by the network coordinator becomes equal to the reception signal strength value. This value controls the power level.

In one embodiment of the present invention, the transmitting of the transmission power level control value may include: transmitting power level in a reserved field of a frame control field included in a header of a signal transmitted from the network coordinator to the network device. It is preferable that the control value is carried on.

More preferably, the transmission power level control value may be represented by three bits of bits 7 to 9 of the preliminary field of the frame control field.

In the ZigBee system, when the network device transmits a signal to the network coordinator, it is possible to minimize the power consumed by the network device that most needs to reduce power consumption by appropriately controlling the power level of the transmitted signal. It features.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. Embodiment of this invention is provided in order to demonstrate this invention more completely to the person skilled in the art to which this invention belongs.

2 is a flowchart illustrating a method of controlling a transmission power level of a network device in a Zigbee system according to an embodiment of the present invention.

A method of controlling a transmission power level of a network device in a Zigbee system according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2.

First, a signal is transmitted from the network device 12 to the network coordinator 11 (S21). The signal transmitted at the network device 12 has a predetermined power level set in advance at the network device 12. The signal may be a confirmation signal for a beacon signal transmitted from the network coordinator 11, or may be a signal including specific data. The network coordinator 11 receives a signal transmitted from the network device 12.

Subsequently, the network coordinator 11 receives a signal transmitted from the network device 12 and detects a received signal strength indication value RSSI for the received signal (S22). The received signal strength indication value is included as a value of 8 bits in the signal transmitted from each network device 12, and the received signal is received from the signal received by the network coordinator 11 from the network device 12. Detect the intensity indication.

At this time, the network coordinator 11 detects the received signal strength indication value of the signal received multiple times and calculates the average value thereof, and can use this average received signal strength indication value to generate the transmission power level control value in the next step. have. Since the received signal strength indication value of the signal transmitted from the network device 12 may fluctuate temporarily due to external factors such as a temporary change in the network environment, etc., the received signal detected from the multiple received signals, respectively It is more preferable to control the transmission power level of the network device 11 using the signal strength indication value.

Subsequently, the network coordinator 11 generates a transmission power level control value by comparing the received signal strength indication value with the signal strength value that can be received by the coordinator (S23). The network coordinator 11 has a minimum signal power level that it can receive. The network coordinator 11 compares this received signal power level with a predetermined margin value and the received signal strength indication value detected in the previous step S22. For example, when the network coordinator 11 has a received signal strength indication value that is greater than the receivable signal power level plus a predetermined margin value, the network coordinator 11 needs the transmit power level of the network device 12. The transmission power level control value for reducing the transmission power level of the network device 12 is determined as large as above. This transmission power level control value is most preferably determined such that the received signal strength indication value detected by the network coordinator 11 and a value obtained by adding a predetermined margin value to the receivable signal power level of the network coordinator 11 are equal. Do. Conversely, if the received signal strength indication value is smaller than the receivable signal power level plus a predetermined margin value, the transmit power level control value is set to increase the transmit power level of the network device 12. May be determined.

Subsequently, the network coordinator 11 transmits the transmission power level control value generated in the previous step S23 to the network device 12. The transmission power level control value may be transmitted as a separate data packet signal, but is included in the header of another data packet signal (for example, a beacon signal) transmitted from the network coordinator 11 to the network device 12. It is desirable to be.

3 is a diagram illustrating a packet frame of a signal used in a Zigbee system. Referring to FIG. 3, a packet frame of a signal used in a Zigbee system is composed of a MAC header (MHR) 31, a MAC payload 32, and a MAC footer 33.

The MAC header 31 includes a frame control field 311, a sequence number field 312 indicating a sequence number for the current frame, an addressing field including a destination-source address, etc. Addressing field) 313.

The frame control field 311 included in the MAC header 31 includes a plurality of fields indicating a frame format and the like. According to the ZigBee standard, in the frame control field 311 consisting of two octets (= 16 bits), bits 7 to 9 and bits 12 to 13 are left as reserved fields containing no special information. I put it. In the present invention, the transmission power level control value can be carried in this preliminary field. In particular, it is preferable to represent three bits of bits 7 to 9 of the preliminary field of the frame control field. In this case, since the reserved field used is 3 bits, a total of eight levels of control information can be transmitted.

Referring again to FIG. 2, the network device 12 refers to a transmission power level control value received from the network coordinator 11 and sends a signal to a transmission output level adjusted according to the transmission power level control value at the next signal transmission. Will be sent.

As described above, in the present invention, when the network device 12 transmits a signal by appropriately controlling the transmission power level of the network device 12 according to the received signal strength indication value RSSI of the signal received by the network coordinator 11. It is possible to automatically prevent transmission with excessive power, thereby avoiding waste of power consumption. In addition, a low transmission power level of the network device 12 may prevent the network coordinator 11 from receiving a signal from the network device 12 in advance.

As described above, according to the present invention, the network device transmit power level can be automatically controlled according to the received signal strength indication value (RSSI) of the signal received by the network coordinator in the Zigbee system. There is an effect to automatically prevent the transmission of excessive power to prevent waste of power consumption. In particular, the network operator does not have to manage a large number of network devices directly, thereby improving network management efficiency.

In addition, according to the present invention, even when the transmission power level of the network device is low, it is possible to control to increase the transmission power level, so that the network coordinator can prevent the error that the signal is not received from the network device in advance. There is.

Claims (5)

In the Zigbee system consisting of a network coordinator and at least one network device in wireless communication therewith, the method for controlling the transmission power of the network device, Delivering a signal having a predetermined power level from the network device to the network coordinator; Detecting a received signal strength indication value (RSSI) of the signal at the network coordinator; Generating, at the network coordinator, a transmission power level control value by comparing the received signal strength indication value with a signal strength value that can be received by the coordinator; Forwarding the transmit power level control value from the network coordinator to the network device; And At the network device, transmitting a controlled signal in accordance with the transmit power level control value Transmission power control method of a network device in a Zigbee system comprising a. The method of claim 1, wherein the detecting of the received signal strength indication value comprises: And detecting a received signal strength indication value of a signal received a plurality of times and calculating an average value thereof. The method of claim 1, wherein the transmission power level control value, In the ZigBee system, the network signal is a value for controlling the transmission signal power level of the network device such that the signal power level that can be received by the network coordinator plus a predetermined margin value is equal to the received signal strength value. Transmission power control method. The method of claim 1, wherein the transmitting of the transmit power level control value comprises: Transmitting power level control value of a network device in a Zigbee system, wherein the transmission power level control value is stored in a reserved field of a frame control field included in a header of a signal transmitted from the network coordinator to the network device; Control method. The method of claim 4, wherein the transmission power level control value, The transmission power control method of the network device in the Zigbee system, characterized in that represented by three bits of bits 7 to 9 of the preliminary field of the frame control field.

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