KR101531394B1 - A cognitive radio system for energy harvesting and a method for controlling thereof - Google Patents

Abstract

The present invention relates to a cognitive radio system for energy harvesting and a control method thereof and, more specifically, to a cognitive radio system for energy harvesting which comprises: a base station that performs energy harvesting; a licensed terminal; and unlicensed terminals that perform cognitive radio within communication coverage of the base station, wherein the unlicensed terminals are capable of performing mutual communication between the unlicensed terminals using a frequency band that is determined to be unused by the base station and the licensed terminal. A representative of a cluster can generate available frequency list information based on signal detection status information and signal detection probability information, which are resulted from the unlicensed terminals, and priority information, which is created from the base station, wherein the cluster can prevent crosstalk and interference of signals by using a frequency band in accordance with the available frequency list information.

Description

[0001] The present invention relates to a cognitive radio system for energy harvesting and a control method thereof,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cognitive radio system for energy harvesting, and more particularly, to a cognitive radio system for preventing interference and interference of signals by sensing a frequency band used in energy harvesting .

With the development of information and communication technology, wireless communication of all electric and electronic terminals is becoming common, and a module for wireless communication can be inserted into almost all products that we can think of. As a result, although the demand for the frequency band for wireless communication is increasing, the frequency band is limited, so that the conflicts over who uses the limited frequency band are intensifying.

In recent years, the idea of 'flexible use' of a frequency band, which efficiently uses a limited frequency band, is emerging. Since the frequency band allocated for communication is not always being used, the unlicensed terminal is made to use the unlicensed frequency band. To this end, the unlicensed terminal needs to determine whether the current frequency band is in use. The related technology is cognitive radio.

Meanwhile, a technique for collecting radio waves generated from various communication terminals and converting them into electrical energy is called RF energy harvesting. In recent years, most people have used at least one wireless terminal, including a smart phone, and it is quite cumbersome to charge each terminal separately. By applying the wireless energy harvesting technique to each terminal, the user can more easily manage the power charge amount of each terminal.

In order for the wireless energy harvesting technology to become common, there is a problem to be solved first. We can assume a communication environment in which various wireless terminals are mixed. At this time, when a wireless power energy beam forming or the like is performed between specific wireless devices for energy harvesting, the frequency band being used for the energy harvesting should be prevented from being used by other wireless terminals. In particular, if the other wireless terminal is not a license terminal authorized to use the frequency band, the problem can be further exacerbated. Cognitive radio technology can be applied to solve this problem.

So far, researches on the wireless energy harvesting and the cognitive radio have been conducted. However, research on wireless energy harvesting and cognitive radio technology simultaneously has not yet been conducted.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems as described above, and it is an object of the present invention to provide a method and apparatus for detecting a usable frequency band of a license-exempted terminal when a base station and a license terminal are performing wireless communication and energy harvesting, And to provide a cognitive wireless system that can judge the performance of the system.

In addition, the present invention also has an object of preventing a communication signal between a base station and a license terminal from interfering with a communication signal between unlicensed terminals by judging whether the unlicensed terminal correctly uses the frequency band.

According to an embodiment of the present invention, there is provided a base station for performing wireless communication and wireless power energy transmission. A licensed terminal for performing wireless communication with the base station and receiving wireless power energy from the base station; And a plurality of unlicensed terminals forming a cluster within the wireless communication coverage of the base station and performing wireless communication with each other and with the license terminal; Wherein the base station and the license terminal transmit and receive a wireless communication signal and a wireless power energy signal, one of the unlicensed terminals in the cluster is selected as a cluster representative, and each unlicensed terminal in the cluster comprises: Receiving the wireless communication signal and the wireless power energy signal transmitted from the license terminal, calculating signal detection probability information and signal detection probability information for each frequency band from the received wireless communication signal and the wireless power energy signal, Wherein the unlicensed terminal, which is not the cluster representative, transmits the signal detection information and signal detection probability information to the cluster representative, and the cluster representative can use the signal detection information and signal detection probability information in the corresponding cluster Available frequency And transmits the available frequency list information to a non-license terminal other than the cluster representative, wherein the available frequency list information excludes a frequency band used when the wireless power energy signal is transmitted and received. A cognitive radio system for harvesting can be provided.

Here, the cluster representative may determine that the reliability of the signal detection information associated with the signal detection probability information is low when the signal detection probability information is less than a preset reference value, and when the available frequency list information is generated, Does not refer to low signal detection information.

Here, the available frequency list information includes frequency band usage pattern information according to time of each license terminal, frequency band availability information derived from the frequency band usage pattern information, and a frequency band generated with reference to the frequency availability information Selection information.

Here, the base station generates priority information of wireless power energy transmission based on the power charge amount information of the license terminal received from the license terminal, and transmits wireless power energy to the license terminal based on the priority information, However,

Herein, the base station and the license terminal transmit the priority information and the unique identification number of the license terminal when transmitting and receiving the wireless communication signal and the wireless power energy signal, and the cluster representative transmits the priority information and the unique identification And if the priority information associated with the unique identification number is greater than or equal to a preset value, referring to the frequency band usage pattern information, a frequency band within a predetermined range centering on the frequency band used by the license terminal And determines that the calculated frequency band is unlikely to be used, and does not include the calculated frequency band in the frequency band selection information.

Each of the non-license terminals included in the cluster transmits frequency band selection information for a frequency band being used in the corresponding cluster, and the license terminal having received the frequency selection information transmits the frequency band selection information to the base station, Frequency use prohibition information indicating that the corresponding frequency band can not be used in the cluster when it is determined that the frequency band included in the frequency selection information is to be used for wireless communication and wireless power energy transmission and reception, The cluster representative transmitting the frequency use prohibition information to the license terminal and the cluster that have received the frequency selection information and transmitting the frequency use prohibition information from the base station and the license terminal receiving the frequency selection information, cluster The frequency band being used is changed within the delay time.

According to another embodiment of the present invention, there is provided a method comprising: receiving a wireless communication signal and a wireless power energy signal transmitted from a base station and a license terminal; Calculating signal detection information and signal detection probability information for each frequency band from the wireless communication signal and the wireless power energy signal; Generating available frequency list information usable in the cluster based on the signal detection information and the signal detection probability information; And transmitting the available frequency list information to each non-license terminal in the cluster; And the available frequency list information may exclude a frequency band used when the wireless power energy signal is transmitted and received. The control method of the cognitive radio system for energy harvesting may be provided.

According to the present invention, the reliability of the signal detection information can be evaluated by referring to the signal detection probability information, and the low-reliability signal detection information is not used in generating the usable frequency list information, It is possible to more clearly discriminate whether or not the corresponding frequency band is being used. This makes it possible to prevent interference and interference of communication signals.

In addition, the cluster representative according to the embodiment of the present invention can easily determine whether to use the frequency band through the available frequency list information.

In particular, when the priority of energy transmission to a specific license terminal is equal to or greater than a preset value, a frequency band within a predetermined range centering on a frequency band used by the license terminal can be calculated, It is possible to prevent the interference of the signals in the wireless energy harvesting.

1 is a diagram illustrating a cognitive radio system for energy harvesting according to an embodiment of the present invention.
2 is a diagram illustrating an example of available frequency list information according to the present invention.
3 is a diagram illustrating an example of available frequency list information that can be generated when priority information is applied.
FIG. 4 illustrates a method of controlling a cognitive radio system for energy harvesting according to an embodiment of the present invention. Referring to FIG.

The present invention relates to a cognitive radio system for energy harvesting and a control method thereof, and more particularly to a cognitive radio system for energy harvesting, which includes a base station for performing energy harvesting, a license terminal and a license- And the unlicensed terminal can perform mutual communication between the licensee terminal and the licensee terminal using a frequency band determined not to be used by the base station and the license terminal, and a control method thereof. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 is a diagram illustrating a cognitive radio system 1000 for energy harvesting according to an embodiment of the present invention. 1, the one-dot chain line represents the communication coverage of the base station 100, and the dotted line represents the cluster formed by the non-license terminals 300a, 300b, 300c and 300d. In FIG. 1, circles denote the respective license-exempt terminals 300a, 300b, 300c and 300d, and in particular, the black circle means the cluster header 300a. In FIG. 1, the solid line indicates the flow of wireless power energy, and the broken line indicates the flow of other communication signals.

1, a cognitive radio system 1000 for energy harvesting according to an embodiment of the present invention includes a base station 100, license terminals 200a, 200b, and 200c, and license-exempt terminals 300a, 300b, 300c, . ≪ / RTI >

The base station 100 may perform wireless communication and wireless power energy transmission. The base station 100 and license terminals 200a, 200b and 200c to be described later can transmit and receive communication signals through a predetermined frequency band. At this time, the base station 100 can communicate with the license terminals 200a, 200b, and 200c through wireless communication (e.g., Bluetooth, WiFi, ZigBee, visible light communication, But the wireless communication method is not limited thereto. According to a preferred embodiment, the base station 100 may calculate position information of each license terminal based on communication parameters referred to when transmitting and receiving radio signals with each license terminal 200a, 200b, 200c. Alternatively, the base station 100 may receive position information of the license terminals 200a, 200b, and 200c identified through GPS or the like from the license terminal. The base station 100 may beamform the wireless power energy to the license terminals 200a, 200b, and 200c based on the location information.

The licensed devices 200a, 200b, and 200c may perform wireless communication with the base station 100 and receive wireless power energy from the base station 100. [ The license terminals 200a, 200b, and 200c can transmit and receive communication signals through a predetermined frequency band when performing wireless communication with the base station 100. [ The license terminals 200a, 200b, 200c may be a portable healthcare terminal for sensing biometric information of a user, a smart phone, a notebook, a smart tablet, a server, and the like.

The unlicensed devices 300a, 300b, 300c and 300d form a cluster within the wireless communication coverage of the base station 100 and communicate with each other and with the license terminals 200a, 200b, Can be performed. The cluster may be an ad hoc network consisting of a plurality of unlicensed terminals. The plurality of unlicensed terminals 300a, 300b, 300c, and 300d may be provided to form the clusters, but the present invention is not limited thereto. The unlicensed terminals 300a, 300b, 300c and 300d may be a portable PC, a smart phone, a healthcare terminal, a fixed server, and the like, which are used for user's convenience, but are not limited thereto.

The license-exempt terminals 300a, 300b, 300c and 300d search frequency bands not used by the base station 100 and the license terminals 200a, 200b and 200c, and when the frequency bands are judged to be usable, 200b, and 200c using the frequency bands of the license-exempt terminals 300a, 300b, 300c, and 300d and the license terminals 200a, 200b, and 200c.

The license-exempt terminals 300a, 300b, 300c and 300d in the cluster detect the license terminals 200a, 200b and 200c capable of performing wireless communication, and when the license- It can be selected as a cluster representative. 1, the license-exempt terminal 300a is selected as a cluster representative.

The base station 100 may generate priority information of wireless power energy transmission based on the power charge amount information of the license terminal received from the license terminals 200a, 200b, and 200c. That is, according to a preferred embodiment, the base station 100 can sense power charge amount information of each license terminal 200a, 200b, 200c. The base station 100 may increase the priority of the wireless power energy transmission to the license terminal 200a, 200b, 200c when the power charge amount of the license terminal 200a, 200b, 200c is less than the predetermined threshold value. The base station 100 can beam-form the wireless power energy to the license terminals 200a, 200b, and 200c based on the priority information so that the license terminals 200a, 200b, ), It is possible to automatically charge the power wirelessly. When the base station 100 and the license terminals 200a, 200b, and 200c perform wireless communication and wireless power energy transmission and reception, the base station 100 and the license terminals 200a, 200b, and 200c transmit normal frequency use information indicating the frequency band information in use and the priority information together . The normal frequency use information may include frequency band information being used by the base station 100 and license terminals 200a, 200b and 200c, a unique identification number of the license terminal, and usage time information.

The unlicensed terminals 300a, 300b, 300c and 300d in the cluster receive the wireless communication signal, the wireless power energy signal, the normal frequency use information , The unique identification number of the license terminal detected, and the priority information. The non-license terminals 300a, 300b, 300c and 300d in the cluster can calculate signal detection information and signal detection probability information for each frequency band from the received wireless communication signal and the wireless power energy signal.

If the number of license-exempt terminals is M and the direction vector from the license terminal to each license-exempt terminal is known, the following weighting matrix W _B can be assumed.

In the above equation, w ₁ to w _M may be a one-dimensional matrix indicating the direction from the license terminal to each license-exempt terminal, but is not limited thereto.

The sum r (t) of the received signals received at the M unlicensed terminals using the rank weight matrix can be expressed by the following equation.

In Equation (2), h ₁ to h _M denote constants of each communication channel, s (t) denotes a signal transmitted from a license terminal, n (t) denotes an Additive White Gaussian Noise H ₁ denotes a case where a wireless communication signal of the license terminal is detected in the frequency band of the received signal and H ₀ denotes a case in which the wireless communication signal of the license terminal is not detected in the frequency band of the received signal . According to the method of implementing the present invention, the unlicensed terminal can generate signal detection information indicating that the license terminal's signal does not exist in the frequency band when the calculated r (t) value is close to the additive white Gaussian noise have. On the other hand, the license-exempted terminal can generate signal detection information indicating that a license terminal signal exists in the frequency band when the calculated characteristic of the value r (t) differs from the characteristic of the additive white Gaussian noise. However, the manner in which the license-exempted terminal generates the signal detection information by referring to the value of r (t) is not limited to this.

In a situation where a wireless communication signal of the license terminal is detected in the frequency band of H ₁ , that is, in the frequency band of the received signal, Y is a noncentral chi-square distribution as a random variable of the signal r (t) received by the non- (m-1), where z is the product of the period of the received signal r (t) and the bandwidth, eta is the threshold value according to the false alarm, I _M- The signal detection probability P _D for the received signal r (t) is calculated by the following equation when the Q is a modified Bessel function and Q denotes a generalized Marcum Q-function. .

That is, the signal detection probability P _D can be derived by calculating the probability that the random variable of r (t) is larger than the false alarm threshold value in a situation where the wireless communication signal of the license terminal is detected in the frequency band of the received signal. In Equation (3), SNR _C denotes an average signal-to-noise ratio calculated in each unlicensed terminal. At this time, the generalized values of the parameters m, a and b are as follows.

Therefore, when the equation of Equation (3) is applied to Equation (4), the following equation can be obtained.

The non-license terminals 300b, 300c and 300d may generate the frequency detection information by combining the normal frequency use information, the detected unique identification number, the signal detection information, and the signal detection probability information. In addition, the license-exempt terminals 300b, 300c and 300d may transmit the frequency detection information and the priority information to the cluster representative 300a. Since the cluster representative 300a is also the unlicensed terminal constituting the cluster, the signal detection information and signal detection probability information can be generated by the above-described formula, and the frequency detection information can also be generated.

The cluster representative 300a generates the unlicensed terminal list information included in the cluster, updates the unlicensed terminal list information every preset unit time, and if the predetermined available frequency search period has elapsed or the terminal list information is changed , It can transmit a control signal requesting transmission of the frequency detection information and the priority information to each of the non-license terminals (300b, 300c, 300d) included in the cluster. Accordingly, the cluster representative 300a can always obtain the latest frequency detection information and priority information.

The cluster representative 300a may generate the available frequency list information usable in the corresponding cluster based on the frequency detection information and the priority information. The available frequency list information may include a result of analyzing a frequency band that can be used in the cluster and a frequency band information selected by referring to the analysis result. According to a preferred example, the available frequency list information includes frequency band usage pattern information according to time of each license terminal 200a, 200b, 200c, frequency band availability information derived from the frequency band usage pattern information, But is not limited to, frequency band selection information generated by referring to availability information. Details of each information that can be included in the available frequency list information will be described later with reference to FIG. 2 to FIG.

The cluster representative 300a can determine whether to use the frequency band based on the signal detection information and the signal detection probability information generated in each unauthorized terminal. However, the cluster representative 300a can determine whether the frequency band is used or not by using the base station 100 and the license terminals 200a, 200b and 200c It is possible to determine whether to use the frequency band directly from the normal frequency use information generated and transmitted to the cluster.

On the other hand, when the signal detection probability information is less than a preset reference value, the cluster representative 300a determines that the reliability of the signal detection information associated with the signal detection probability information is low and generates the available frequency list information It may not refer to the signal detection information with low reliability. Accordingly, the cluster representative 300a can determine that the frequency band associated with the low-reliability detected signal presence / absence information is unusable, but is not limited thereto. The cluster representative 300a can search for a usable frequency band more precisely by discriminating whether to use the signal detection information or not based on the signal detection probability information, thereby preventing signal crossing and interference.

The cluster representative 300a can transmit the generated available frequency list information to each of the non-license terminals 300b, 300c and 300d in the corresponding cluster. And the unlicensed terminals in the cluster receive radio waves through the frequency band according to the available frequency list information to prevent interference and interference with the signals transmitted from the base station 100 and the license terminals 200a, 200b and 200c .

On the other hand, when the base station 100 and the license terminals 200a, 200b, 200c use the corresponding frequency band when a specific frequency band is being used in the cluster, the interference and interference of signals may occur. In order to prevent this, each of the license-exempt terminals 300a, 300b, 300c, and 300d included in the cluster may transmit frequency band selection information for a frequency band being used in the cluster. The license terminal having received the frequency selection information can transmit the frequency selection information to the base station 100. When the frequency band included in the frequency selection information is determined to be used for wireless communication and wireless power energy transmission and reception , It may generate frequency use prohibition information indicating that the corresponding frequency band can not be used in the cluster. The base station 100 may transmit the preset grace time information and the frequency use prohibition information to the license terminal and the cluster that have received the frequency selection information. If direct radio communication between the base station 100 and the cluster can not be performed, the grace period information and the frequency use prohibition information may be transmitted to all places in the communication coverage of the base station 100. [ The cluster representative 300a can receive the frequency use prohibition information from the base station 100 and the license terminal that has received the frequency selection information, and can change the frequency band being used in the cluster within the grace period.

The manner in which the cluster representative 300a determines whether or not a specific frequency band is available is not limited by the above-described method. According to another embodiment, the cluster representative 300a can determine the availability of the frequency band through the following method. The non-license terminal in the cluster can individually detect the energy distribution for each frequency band, and can determine whether the energy distribution of each frequency band is equal to or greater than a predetermined threshold value. If it is determined that the energy distribution of the specific band is equal to or greater than the predetermined threshold value, the license-exempted terminal can judge that the signal of the license terminal exists in the corresponding frequency band. The above determination method can be performed in all the unlicensed terminals in the cluster, and it is possible to determine the presence or absence of a signal for each frequency band for each unlicensed terminal. The cluster representative 300a collects the presence / absence information of each frequency band generated for each unauthorized terminal, and if the presence / absence information of the signal exists for a specific frequency band, the frequency band is used by the license terminal .

2 is a diagram illustrating an example of available frequency list information according to the present invention. In the graph of FIG. 2 (a), the horizontal axis represents time and the vertical axis represents frequency band. Referring to FIG. 2 (a), the cognitive radio system for energy harvesting according to the present invention is described as using eight frequency bands, but the present invention is not limited thereto. In the graph of Fig. 2 (a), a vertical solid line is a dividing line for distinguishing unit time, and a vertical solid line is for each frequency band.

2 (a) shows frequency band usage pattern information of each license terminal according to time. According to FIG. 2 (a), license terminal 200a uses frequency bands f2 and f8 and license terminal 200b uses frequency band f6 , and f7, and the license terminal 200c uses frequency bands f1, f3, and f4. As shown in FIG. 2 (a), each license terminal does not always use the assigned frequency band, and there is also a frequency band f5 that is not used. The unlicensed terminal according to the present invention can search for the idle frequency band.

Fig. 2 (b) shows a method of deriving the frequency band availability information from the frequency band usage pattern information of Fig. 2 (a). The numbers on the right side of each frequency band name indicate the frequency band availability value for each frequency band and the graph on the right side shows the occupancy rate of the license terminal by each unit time interval.

The cluster representative can calculate the frequency occupation rate per unit time for each frequency band. In FIG. 2 (b), the unit time interval in which the frequency occupancy rate is 25% or more is shown in black, and the unit time interval can be determined to be occupied by the license terminal. The reference value of 25% may be set differently according to the manner of carrying out the invention. Accordingly, the cluster representative can count a unit time interval with a frequency occupancy rate of 25% or more for each frequency band, and can calculate the ratio of the unit time interval occupied by the license terminal to the preset time interval. Frequency band availability information may be generated based on the ratio value. One embodiment of the equation for obtaining frequency band availability information is as follows.

In Equation (6), P _B denotes the frequency band availability value for each frequency band, k denotes the number of unit time intervals occupied by the license terminal, and k _ref denotes the predetermined time period.

The cluster representative may generate frequency band selection information with reference to the frequency availability information. According to the method of implementing the present invention, a frequency band having the largest frequency band availability value can be selected as a frequency band to be used in the cluster.

According to a preferred embodiment, weights may be applied when deriving the frequency band availability information. In Fig. 2 (b), the frequency band probability value of the frequency band f4 is 9/12, but the frequency band is used only for the first three unit time periods, and is not used thereafter. In this case, the cluster representative may add a weight to the frequency band likelihood value based on the number of consecutive unit time intervals in which the frequency band is not used.

3 is a diagram illustrating an example of available frequency list information that can be generated when priority information is applied. 3 is the same as that of FIG. 2, and thus a detailed description thereof will be omitted. 3 (a) shows a case where the priority of the license terminal 200b is equal to or greater than a predetermined value. If the priority information associated with the unique identification number of the license terminal is equal to or greater than a predetermined value, the representative cluster representative refers to the frequency band usage pattern information and determines a frequency band within a predetermined range centering on the frequency band used by the license terminal It is determined that the calculated frequency band is unlikely to be used, and the calculated frequency band is not included in the frequency band selection information.

The licensee terminal 200b uses the frequency bands f6 and f7, and the cluster representative can prevent the frequency bands f5 to f8 from being used in the cluster. According to Fig. 3 (b), the cluster representative can process the above-described process in a manner that calculates the frequency band availability information of the frequency bands f5 to f8 to 0 or does not calculate it at all, but is not limited thereto.

FIG. 4 illustrates a method of controlling a cognitive radio system for energy harvesting according to an embodiment of the present invention. Referring to FIG.

First, the cognitive radio system for energy harvesting according to the embodiment of the present invention may generate priority information of the wireless power energy transmission based on the power charge amount information of the license terminal (S110). Advantageously, the priority information may be generated at the base station, and the base station may preferentially beam-form the wireless power energy to the license terminal that has insufficient power charge. Then, the base station and the license terminal can transmit the normal frequency use information indicating the frequency band information being used by the base station and the license terminal and the priority information (S120). Preferably, in the unlicensed terminal forming the cluster, the wireless communication signal, the wireless power energy signal, the normal frequency usage information, the unique identification number of the sensed license terminal, and the wireless communication signal transmitted from the base station and the license terminal, Information can be received (S130). The non-license terminal can calculate signal detection probability information and signal detection probability information for each frequency band from the wireless communication signal and the wireless power energy signal (S140), and calculate the normal frequency use information, the sensed unique identification number, The signal detection information and the signal detection probability information may be combined to generate frequency detection information (S150). The frequency detection information and the priority information are transmitted to the cluster representative, and the cluster representative may generate the available frequency list information usable in the cluster based on the frequency detection information and the priority information (S160). The cluster representative can transmit the available frequency list information to each unlicensed terminal in the cluster (S170), whereby the unlicensed terminals in the cluster can perform wireless communication without signal interference and interference with the base station and the license terminal.

According to the present invention, the reliability of the signal detection information can be evaluated by referring to the signal detection probability information, and the low-reliability signal detection information is not used in generating the usable frequency list information, It is possible to more clearly discriminate whether or not the corresponding frequency band is being used. This makes it possible to prevent interference and interference of communication signals.

In addition, the cluster representative according to the embodiment of the present invention can easily determine whether to use the frequency band through the available frequency list information.

In particular, when the priority of energy transmission to a specific license terminal is equal to or greater than a preset value, a frequency band within a predetermined range centering on a frequency band used by the license terminal can be calculated, It is possible to prevent the interference of the signals in the wireless energy harvesting.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Accordingly, it is to be understood that within the scope of the appended claims, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

100: base station
200: license terminal
300: License-free terminal
1000: Cognitive radio system for energy harvesting

Claims (7)

A base station for performing wireless communication and wireless power energy transmission; A licensed terminal for performing wireless communication with the base station and receiving wireless power energy from the base station; And a plurality of unlicensed terminals forming a cluster within the wireless communication coverage of the base station and performing wireless communication with each other and with the license terminal; Lt; / RTI >
The base station and the license terminal transmit and receive a wireless communication signal and a wireless power energy signal,
One of the non-license terminals in the cluster is selected as a cluster representative,
Each unlicensed terminal in the cluster,
Receiving the wireless communication signal and the wireless power energy signal transmitted from the base station and the license terminal, and detecting and detecting signal detection probability information for each frequency band from the received wireless communication signal and the wireless power energy signal, Calculating,
The unlicensed terminal not the cluster representative transmits the signal detection information and signal detection probability information to the cluster representative,
The cluster representative,
Generating, based on the signal detection information and the signal detection probability information, available frequency list information usable in the cluster, and transmitting the available frequency list information to the non-license terminal not the cluster representative,
Wherein the available frequency list information excludes a frequency band used when the wireless power energy signal is transmitted and received. The method according to claim 1,
The cluster representative,
When the signal detection probability information is less than a predetermined reference value, it is determined that the reliability of the signal detection information associated with the signal detection probability information is low,
And does not refer to the low signal detection information when generating the available frequency list information. The method according to claim 1,
The cluster representative,
The method comprising: generating unlicensed terminal list information included in the cluster, updating the unlicensed terminal list information every predetermined unit time,
And transmitting a control signal for requesting transmission of the signal detection information and the signal detection probability information to each non-license terminal included in the cluster when a preset available frequency search period elapses or a change occurs in the terminal list information Cognitive radio system for energy harvesting characterized by. The method according to claim 1,
The available frequency list information includes:
Frequency band usage pattern information according to time of each license terminal,
Frequency band availability information derived from the frequency band usage pattern information and
And frequency band selection information generated by referring to the frequency availability information. 5. The method of claim 4,
The base station generates priority information of wireless power energy transmission based on the power charge amount information of the license terminal received from the license terminal, and beam-forms wireless power energy to the license terminal based on the priority information,
Wherein the base station and the license terminal transmit the priority information and the unique identification number of the license terminal when transmitting and receiving a wireless communication signal and a wireless power energy signal,
The cluster representative,
Further receiving the priority information and the unique identification number,
If the priority information associated with the unique identification number is greater than or equal to a predetermined value,
Calculating a frequency band within a predetermined range around the frequency band used by the license terminal with reference to the frequency band use pattern information,
Determines that the calculated frequency band is unlikely to be used,
And does not include the calculated frequency band in the frequency band selection information. 5. The method of claim 4,
Each of the non-license terminals included in the cluster transmits frequency band selection information for a frequency band being used in the corresponding cluster,
The license terminal having received the frequency selection information transmits the frequency selection information to the base station,
The base station comprises:
When the frequency band included in the frequency selection information is determined to be used for wireless communication and wireless power energy transmission and reception, generates frequency use prohibition information indicating that the corresponding frequency band can not be used in the cluster, Transmits the frequency use prohibition information to the license terminal and the cluster that have received the frequency selection information,
The cluster representative,
Receiving the frequency use prohibition information from the base station and the license terminal having received the frequency selection information, and changing the frequency band being used in the cluster within the duration of the grace period. Receiving a wireless communication signal and a wireless power energy signal transmitted from a base station and a license terminal;
Calculating signal detection information and signal detection probability information for each frequency band from the wireless communication signal and the wireless power energy signal;
Generating available frequency list information usable in the cluster based on the signal detection information and the signal detection probability information; And
Transmitting the available frequency list information to each non-license terminal in the cluster; , ≪ / RTI &
Wherein the available frequency list information excludes a frequency band used when the wireless power energy signal is transmitted and received.

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