KR101580320B1 - Distance Measuring Method Using Received Signal Strength Itensity - Google Patents

Abstract

A distance measuring method of the present invention includes: receiving a signal transmitted from a transmitter; Measuring a reception strength of the signal; Calculating a distance using the measured reception strength if the measured reception strength is greater than a predetermined reference value; Performing at least once packet communication with the transmitter if the measured reception strength is less than the reference value; Measuring a PER for at least one-time packet communication with the transmitter; And estimating a distance using the measured PER.

Distance measurement, RSSI, PER, wireless communication, base station

Description

[0001] The present invention relates to a distance measuring method using received signal strength,

The present invention relates to a method for measuring a distance between a transmitter and a receiver from a reception sensitivity of a radio signal emitted from the transmitter. The distance measuring method of the present invention can be applied to a system in which a receiver such as a mobile phone, a wireless Internet terminal, an RF tag, a short distance wireless communication (Zigbee, Bluetooth, UWB)

A system for measuring a position largely uses a GPS signal and uses a base station as a beacon fixed on the ground.

Of these, systems using GPS can perform accurate position measurements at a relatively low cost, but there is a risk that the implementation of the functions itself may be impaired by the presence of GPS satellites or the availability of GPS satellite signals, There is no disadvantage.

On the other hand, in the case of a system using a base station, there is a problem of installation cost of the base station. However, with the recent development of wireless communication technology in various fields, base stations emitting signals for wireless communication in various purposes have been installed in many places.

In order to implement a system for measuring the position using the base station, the distance between the base station and the wireless signal receiver to know its position must be calculated first.

The most simple and widely known method for determining the distance between a base station for a general wireless communication and a reception period is to use Received Signal Strength Indication (RSSI). This is due to the characteristic that RSSI attenuates as the distance between the two becomes longer.

However, since the attenuation characteristic of the RSSI value has a logarithmic function form, there is a problem in that the accuracy of the RSSI value is greatly deteriorated when the distance between the two is long.

The present invention provides a method for determining a location using a general wireless communication network.

Alternatively, the present invention provides a method for measuring the distance between a base station and a wireless signal receiver using a wireless communication network accurately and simply.

A method of measuring a distance according to an embodiment of the present invention includes: receiving a signal transmitted from a transmitter; Measuring a reception strength of the signal; Calculating a distance using the measured reception strength if the measured reception strength is greater than a predetermined reference value; Performing at least one packet communication with the transmitter if the measured reception strength is less than the reference value; Measuring a PER for at least one-time packet communication with the transmitter; And estimating a distance using the measured PER.

According to another aspect of the present invention, there is provided a wireless signal receiver including: a wireless communication unit for receiving a signal transmitted from a transmitter and performing wireless communication with the transmitter; A receiving strength measuring unit measuring a receiving strength of a signal transmitted from the transmitter; A communication packet generation / verification unit for generating a communication packet to be transmitted to the transmitter and confirming a communication packet received by the transmitter; A PER measuring unit for measuring a PER according to transmission of a communication packet with the transmitter; And calculating a distance using the measured reception intensity if the reception intensity measured by the reception intensity measurement unit is greater than a predetermined reference value, and if the measured reception intensity is smaller than the reference value, And a distance calculating unit for calculating a distance.

According to the distance measuring method of the embodiment of the present invention, it is possible to implement the position determination system using the transmitter of the existing wireless communication network.

FIG. 1 shows a position measurement system using a wireless communication network for mobile communication. In the illustrated position measuring system, it is possible to measure the position of each base station and the mobile communication terminal that perform the role of the transmitter, and the distances between the base stations and the mobile communication terminal can be estimated. .

2A and 2B (the unit of the axis of abscissas is 100 m) shows the RSSI (Received Signal Strength Indication) value of the base station signal of a general wireless communication terminal and the relation pattern of the base station-terminal distance. As shown in the figure, the pattern has an attenuation factor of about 500 m to judge the distance finely. However, the attenuation ratio is too small at the distant distance, so that the distance can not be judged finely. On the other hand, referring to FIG. 2A, it can be seen that the higher the communication output, the more clearly the attenuation rate is shown.

3A and 3B illustrate a relationship between a transmission error rate (PER) of a base station communication packet and a terminal period distance of a general wireless communication terminal. As shown in the figure, the increase rate of the transmission error rate (PER) is clearly observed at a distance of 500 m or more at a relatively low communication output.

4 illustrates a wireless signal receiver in accordance with an embodiment of the present invention. The wireless signal receiver may be a mobile communication terminal when applied to the mobile communication system of FIG. 1, and may be a terminal for other wireless data communication such as a wireless Internet terminal in another implementation.

The wireless signal receiver includes a wireless communication unit 210 for receiving a signal transmitted from a base station and performing wireless communication with the base station; A reception strength measuring unit 220 for measuring a reception strength of a signal transmitted from the base station; A communication packet generating / verifying unit 230 for generating a communication packet to be transmitted to the base station and confirming a communication packet received from the base station; A PER measuring unit 240 for measuring a PER (Packet Error Rate) according to transmission of a communication packet with the base station; And calculating a distance using the measured reception intensity if the reception intensity measured by the reception intensity measurement unit is greater than a predetermined reference value, and if the measured reception intensity is smaller than the reference value, And a distance calculating unit 250 for calculating the distance.

Although each of the above components is shown separately, a plurality of components may be implemented in one hardware according to an implementation. For example, the communication packet generating / confirming unit 230, the PER measuring unit 240, and the distance calculating unit 250, which mainly perform processing on digital signals, can be applied as a single control single processor.

The wireless communication unit 210 is for receiving a signal received from an antenna, and includes analog devices such as a tuner that conforms to the applied communication system.

The reception strength measurement unit 220 may be applied to an RSSI measurement unit that measures RSSI and may measure an analog strength of a signal received by the wireless communication unit 210. [

The communication packet generation / confirmation unit 220 generates PER measurement packets according to the present invention and checks whether a transmission error has occurred by checking the response of the base station. The PER measurement packets may be a fixed length pattern including fixed pattern data. Upon receiving the PER measurement packet, the base station may perform a transmission error check such as a cyclic redundancy check (CRC) check and may reply the result to the radio signal receiver.

The PER measuring unit 240 collects a predetermined number of test results of the transmission error of the communication packet generating / confirming unit 220 to measure the PER. The PER measuring unit 240 can measure the PER from the number of error check results determined by any one of 10 to 1000. [ For example, PER can be measured from 10, 100, or 1000 error check results.

The distance calculating unit 250 calculates the distance between the base station and the base station using the RSSI value in a short distance (less than 500 m according to the results of FIGS. 2A to 3B) , The distance is calculated using PER.

To this end, the distance calculating unit 250 first checks the RSSI value, and if it is larger than a predetermined reference value (an RSSI value at 500m according to the result of FIGS. 2A to 3B), it determines to calculate the distance using the PER .

On the other hand, when the distance calculating unit 250 determines to calculate the distance using the PER, the wireless communication unit 210 may perform communication with the base station before sending the PER measurement packet in order to accurately measure the PER (For example, transmission signal output) to an appropriate level. That is, in FIG. 3A, a distance of 500 m or more can be lowered to an output level that clearly indicates.

When the output level of the wireless communication unit 210 is lowered for the PER measurement, when the PER measurement is completed, the wireless communication unit 250 can increase the output level again.

5 shows a distance measurement method according to an embodiment of the present invention. The illustrated distance measuring method includes: receiving a signal transmitted from a base station (S110); Measuring a reception strength of the signal (S120); If the measured reception strength is greater than a predetermined reference value (S130), estimating a distance using the measured reception strength (S192); If the measured reception strength is smaller than the reference value, performing packet communication with the base station a plurality of times (S160); Measuring a PER for the multiple packet communication (S170); And calculating the distance using the measured PER (S194).

The method may further include a step (S150) of lowering a communication performing strength of the receiver before the step S160, and further comprising a step of increasing a communication performing intensity of the receiver after the step of S170.

In addition, for step S160, it may further include generating (S 140) packets for a predetermined number of PER measurement.

The signal received in step S110 may be a dedicated beacon signal broadcasted by the base station for distance measurement, or may be a signal that the base station notifies itself for wireless communication.

In step S120, an RSSI value of a signal transmitted from the BS is measured. The measurement of the RSSI value is a well-known technology in the field of wireless communication, and a detailed description thereof will be omitted.

The reference value in step S130 may be an RSSI value at 500m at the maximum power level according to the results of FIGS. 2A to 3B.

In step S140, the predetermined number N may be designated as any one of 10 to 1000. [ Depending on the implementation, the N packets may have the same pattern of data and different patterns of data.

In step S150 and step S180, the radio output level for the packet transmission may be lowered or increased.

As shown in the figure, in step S160, one of the N PER measurement packets is transmitted to the BS, and a response to the N PER measurement packets is received.

In step S170, a PER determined by 'PER = the number of packets with transmission errors / the total number of packets transmitted' can be measured.

In step S192, the distance between the base station and the reception period is calculated using the characteristic that the RSSI is attenuated according to the distance. For example, the distance can be calculated using the graph of the highest level in FIG.

In step S194, the distance between the base station and the reception period is calculated using the characteristic that the PER increases according to the distance. For example, the distance can be calculated using a graph of the p-level (p-level) in Fig. 3A. In this case, the output should be lowered to a level corresponding to the p level in step S150.

While the technical spirit of the present invention has been described in detail with reference to the above embodiments, it should be noted that the above embodiments are intended to be illustrative and not restrictive. In addition, it will be understood by those of ordinary skill in the art that various embodiments are possible within the scope of the technical idea of the present invention.

For example, although the location measurement system described above is embodied as a location measurement system implemented using a wireless communication network for mobile communication, the concept of the present invention is also applicable to other types of location measurement systems, Of course.

For example, in the above description, the distance between the base station and the receiver of the wireless communication network for mobile communication is specified. However, the idea of the present invention can also be applied to a distance measurement between a transmitter and a receiver other than a base station. It goes without saying that the present invention belongs to the scope of the present invention.

1 is a conceptual diagram illustrating a wireless communication system in which a distance measurement method according to an aspect of the present invention can be performed.

2A and 2B are graphs showing characteristics along the distance of the RSSI value.

FIGS. 3A and 3B are graphs showing the characteristics according to the distance of the PER value. FIG.

4 is a block diagram illustrating a wireless signal receiver in accordance with one embodiment of the present invention.

5 is a flow chart illustrating a distance measurement method in accordance with an embodiment of the present invention.

Claims (6)

Receiving a signal transmitted from a transmitter; Measuring a reception strength of the signal; Calculating a distance using the measured reception strength if the measured reception strength is greater than a predetermined reference value; Performing at least once packet communication with the transmitter and the transmitter if the measured reception strength is less than the reference value; Measuring a PER for at least one-time packet communication with the transmitter; And Calculating a distance using the measured PER / RTI > The method according to claim 1, Prior to performing the packet communication with the transmitter, And lowering the communication intensity of the receiver. 3. The method of claim 2, After calculating the distance using the PER, And increasing the strength of communication of the receiver. The method according to claim 1, In the step of performing packet communication with the transmitter, Wherein the receiver performs communication of data packets of the same length a predetermined number of times. A wireless communication unit for receiving a signal transmitted from a transmitter and performing wireless communication with the transmitter; A receiving strength measuring unit measuring a receiving strength of a signal transmitted from the transmitter; A communication packet generation / verification unit for generating a communication packet to be transmitted to the transmitter and confirming a communication packet received by the transmitter; A PER measuring unit for measuring a PER according to transmission of a communication packet with the transmitter; And If the reception intensity measured by the reception intensity measurement unit is larger than a predetermined reference value, calculating a distance using the measured reception intensity, And if the measured reception strength is smaller than the reference value, calculating a distance using the measured PER, Lt; RTI ID = 0.0 > 6. The method of claim 5, Wherein the wireless communication unit lowers the strength of the wireless communication performed by the transmitter when the PER measuring unit measures the PER.

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