JP2010068216A - Communication device, antenna switching method ,and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the interference wave level without using a filter. <P>SOLUTION: An antenna switching method has a CINR monitor step of monitoring CINR of signals in a first frequency band in a specified period for each of a plurality of antennas, a CINR comparison step of comparing the average value in a specified time preceding CINR of signals in the first frequency band with the latest value for each of the plurality of antennas, a first RSSI monitor step of monitoring RSSI of signals in the first frequency band in a specified period for each of the plurality of antennas, a first RSSI comparison step of comparing the average value in a specified time preceding RSSI of signals in the first frequency band with the latest value for each of the plurality of antennas, and a selection step of selecting one of the plurality of antennas according to a determination reference using the comparison results between the average values of RSSI and CINR of signals in the first frequency band, and the latest values for each of the plurality of antennas, and instructing a switching part to switch to the selected antenna. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a communication device, an antenna switching method, and a program.

  In WiMAX (Worldwide Interoperability for Microwave Access) Forum, WiMAX has been formulated based on the IEEE (The Institute of Electrical and Electronic Engineers) 802.16e standard.

  Although WiMAX communication is wireless communication, the communication speed is as high as 20 Mbps or higher.

Therefore, it is assumed that WiMAX communication is used as an alternative to fixed high-speed communication such as ADSL (Asymmetric Digital Subscriber Line), and some techniques related to WiMAX communication have been proposed (for example, see Patent Document 1).
However, the frequency band of WiMAX is 2.5 GHz, and ISM bands (Industry Science Medical band: 2) such as WLAN (Wireless Local Area Network) communication devices, Bluetooth communication devices, digital cordless telephones, etc. .4 GHz band) adjacent to the frequency band of communication equipment.

  Therefore, the WiMAX communication device is highly likely to receive interference from the ISM band communication device, and this interference becomes an interference wave, and the communication quality of the desired wave (2.5 GHz band) of WiMAX communication may deteriorate.

  As a method of solving such a communication quality degradation problem of WiMAX communication, for example, a method of controlling communication timing between a MAC (Media Access Control) layer or a WiMAX communication device and an ISM band communication device can be considered. However, ISM band communication devices such as microwave ovens and digital cordless telephones are usually not provided with means for controlling communication timing and the like. For this reason, in this method, since the ISM band communication device such as a microwave oven cannot be controlled, the level of the interference wave may not be reduced.

  Therefore, in the future, it is considered that the WiMAX communication device side will need to reduce the level of the interference wave from the ISM band communication device using the adjacent frequency band.

  As an example of a method of reducing the level of the interference wave on the WiMAX communication device side, as disclosed in Patent Document 1, a plurality of antennas are provided, and the antennas are switched according to the reception quality. A method of reducing the level is conceivable.

As another example, as disclosed in Patent Document 2, a method of providing a filter to reduce the level of the interference wave is conceivable.
JP 2008-136089 A JP 2007-288455 A

  However, in the method disclosed in Patent Document 1, CINR (Carrier to Interference plus Noise Ratio) and RSSI (Received Signal Strength Indication) are independently used for antenna switching determination. Therefore, for example, even if the CINR deteriorates, it cannot be accurately determined whether the cause is an increase in the level of the interference wave. Therefore, this method has a problem that the level of the interference wave may not be reduced even if the antenna is switched.

  In the method disclosed in Patent Document 2, since the target interference wave is from an ISM band communication device using an adjacent frequency band, the filter size is increased in order to reduce the level of the interference wave. End up. Therefore, this method has a problem that transmission line loss increases due to an increase in filter size.

  Accordingly, an object of the present invention is to more accurately determine the level of the interference wave, thereby reducing the level of the interference wave more reliably by switching the antenna and avoiding an increase in transmission line loss. It is to provide a communication device, an antenna switching method, and a program.

The communication device of the present invention is
A communication device that performs wireless communication using a signal of a first frequency band as a desired wave,
Multiple antennas with different directivities,
A switching unit for switching the plurality of antennas;
A CINR (Carrier to Interference plus Noise Ratio) of the first frequency band signal provided corresponding to each of the plurality of antennas and received by the corresponding antenna is monitored at a constant period. A plurality of CINR monitoring units,
A plurality of CINR comparisons provided corresponding to each of the plurality of antennas and comparing an average value and a latest value of a certain period immediately before CINR of a signal in the first frequency band received by the corresponding antenna And
A plurality of second antennas provided corresponding to each of the plurality of antennas and monitoring RSSI (Received Signal Strength Indication) of a signal of the first frequency band received by the corresponding antenna at a constant period. 1 RSSI monitoring unit;
A plurality of first RSSIs provided corresponding to each of the plurality of antennas and comparing an average value and a latest value for a certain period immediately before RSSI of the signal of the first frequency band received by the corresponding antenna. A comparison unit;
According to the determination criteria using the comparison result of the RSSI average value and the latest value of the signal of the first frequency band received by each of the plurality of antennas and the comparison result of the CINR average value and the latest value, A selection unit that selects one of the plurality of antennas and instructs the switching unit to switch to the selected antenna.

The antenna switching method of the present invention includes:
An antenna switching method by a communication device having a plurality of antennas having different directivities and a switching unit that switches the plurality of antennas, and performing wireless communication using a signal of a first frequency band as a desired wave,
A CINR monitoring step of monitoring, for each of the plurality of antennas, a CINR of a signal of the first frequency band received by the antenna at a constant period;
A CINR comparison step of comparing, for each of the plurality of antennas, an average value of a certain period immediately before CINR of a signal in the first frequency band received by the antenna and a latest value;
For each of the plurality of antennas, a first RSSI monitoring step of monitoring RSSI of the signal of the first frequency band received by the antenna at a constant period;
For each of the plurality of antennas, a first RSSI comparison step of comparing an average value and a latest value of a certain period immediately before RSSI of the signal of the first frequency band received by the antenna;
According to the determination criteria using the comparison result of the RSSI average value and the latest value of the signal of the first frequency band received by each of the plurality of antennas and the comparison result of the CINR average value and the latest value, Selecting one of a plurality of antennas and instructing the switching unit to switch to the selected antenna.

The program of the present invention
A communication device that includes a plurality of antennas having different directivities and a switching unit that switches the plurality of antennas, and performs wireless communication using a signal in the first frequency band as a desired wave,
A CINR monitoring procedure for monitoring, for each of the plurality of antennas, a CINR of a signal of the first frequency band received by the antenna at a constant period;
For each of the plurality of antennas, a CINR comparison procedure for comparing an average value and a latest value of a certain period immediately before CINR of a signal of the first frequency band received by the antenna;
For each of the plurality of antennas, a first RSSI monitoring procedure for monitoring RSSI of the signal of the first frequency band received by the antenna at a constant period;
A first RSSI comparison procedure for comparing, for each of the plurality of antennas, an average value and a latest value of a certain period immediately before RSSI of the signal of the first frequency band received by the antenna;
According to the determination criteria using the comparison result of the RSSI average value and the latest value of the signal of the first frequency band received by each of the plurality of antennas and the comparison result of the CINR average value and the latest value, Selecting one of a plurality of antennas, and executing a selection procedure for instructing the switching unit to switch to the selected antenna.

  The communication device of the present invention performs antenna switching using a comparison result between an average value and a latest value of a certain period immediately before each of RSSI and CINR of a signal in the first frequency band in each of a plurality of antennas.

  In this way, in the antenna switching determination, the interference wave level can be more accurately determined by using RSSI in addition to CINR. Therefore, the interference switching level can be more reliably reduced by antenna switching. The effect that it can be obtained.

  In addition, the above-mentioned antenna switching can reduce the level of the interference wave without providing a high-priced component filter, and therefore an effect of avoiding an increase in transmission line loss due to an increase in filter size. Is obtained.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

  In the present embodiment, WiMAX communication that performs radio communication using a 2.5 GHz band signal as a desired wave and reduces the level of interference waves from ISM band communication equipment using the 2.4 GHz band (ISM band). An apparatus will be described as an example, but the present invention is not limited to this. That is, the present invention is applicable to all communication devices that reduce the level of interference waves from other communication devices that use adjacent frequency bands adjacent to the desired wave.

  As illustrated in FIG. 1, the communication device according to the present embodiment includes n (n is a natural number of 2 or more) antennas 10-1 to 10-n, an antenna switching unit 11, a WiMAX operation unit 12, and n pieces. Antenna management units 13-1 to 13-n provided corresponding to each of the antennas 10-1 to 10-n, an antenna selection unit 14, and a candidate antenna selection unit 15.

  The antennas 10-1 to 10-n have different directivities.

  The antenna switching unit 11 performs antenna switching to the antenna selected by the antenna selection unit 14 among the antennas 10-1 to 10-n.

  The WiMAX operation unit 12 performs WiMAX communication processing such as modulation processing of a transmission signal transmitted from the selected antenna and demodulation processing of a reception signal received by the selected antenna. The WiMAX operation unit 12 is provided in a general WiMAX communication device, and since its configuration and operation are well known, detailed description thereof is omitted.

  Each of the antenna management units 13-1 to 13-n includes a WiMAX CINR monitoring unit 131, a WiMAX CINR recording unit 132, a WiMAX CINR comparison unit 133, a WiMAX RSSI monitoring unit 134, a WiMAX RSSI recording unit 135, and a WiMAX. An RSSI comparison unit 136, an adjacent frequency band RSSI monitoring unit 137, an adjacent frequency band RSSI recording unit 138, and an adjacent frequency band RSSI comparison unit 139 are included. Here, the operation of the above components in the antenna management unit 13-1 will be described.

  The WiMAX CINR monitoring unit 131 monitors the CINR of the WiMAX 2.5 GHz band signal (desired wave) received by the antenna 10-1 at a constant cycle (for example, 1 second cycle, the same applies hereinafter). In the following, the CINR of a 2.5 GHz band signal is referred to as WiMAX CINR. Moreover, the above example of the fixed period is merely an example, and is not limited to this.

  The WiMAX CINR recording unit 132 records the WiMAX CINR monitored by the WiMAX CINR monitoring unit 131 for a certain period (for example, 1 minute, the same applies hereinafter). Note that the above example of the certain period is merely an example, and the present invention is not limited to this.

  The WiMAX CINR comparison unit 133 compares the average value of the fixed period immediately before the WiMAX CINR recorded by the WiMAX CINR recording unit 132 with the latest value.

  The WiMAX RSSI monitoring unit 134 monitors the RSSI of the WiMAX 2.5 GHz band signal received by the antenna 10-1 at a constant period. Hereinafter, the RSSI of the 2.5 GHz band signal is referred to as WiMAX RSSI.

  The WiMAX RSSI recording unit 135 records the WiMAX RSSI monitored by the WiMAX RSSI monitoring unit 134 for a certain period.

  The WiMAX RSSI comparison unit 136 compares the average value of the fixed period immediately before the WiMAX RSSI recorded by the WiMAX RSSI recording unit 135 with the latest value.

  The adjacent frequency band RSSI monitoring unit 137 monitors the RSSI of the 2.4 GHz band (ISM band) signal (interference wave) received by the antenna 10-1 at a constant period. Hereinafter, the RSSI of a 2.4 GHz band signal is referred to as an adjacent frequency band RSSI.

  The adjacent frequency band RSSI recording unit 138 records the adjacent frequency band RSSI monitored by the adjacent frequency band RSSI monitoring unit 137 for a certain period.

  The adjacent frequency band RSSI comparison unit 139 compares the average value of the fixed period immediately before the adjacent frequency band RSSI recorded by the adjacent frequency band RSSI recording unit 138 with the latest value.

  The antenna selection unit 14 compares the average value of WiMAX CINR and the latest value of the antennas 10-1 to 10-n, the average value of WiMAX RSSI, and the latest value from each of the antenna management units 13-1 to 13-n. And the latest comparison result between the average value of the adjacent frequency band RSSI and the latest value are always collected.

  In addition, the antenna selection unit 14 includes a determination criterion table 141 in which determination criteria used for antenna switching determination are determined in advance. The comparison result of WiMAX CINR and the comparison result of WiMAX RSSI in the antennas 10-1 to 10-n. Then, using the comparison result of the adjacent frequency band RSSI, one of the antennas 10-1 to 10-n is selected according to the above determination criterion, and the antenna switching unit 11 is instructed to switch to the selected antenna.

  Specifically, the antenna selection unit 14 first performs primary determination to determine whether or not to switch the selected antenna, using the WiMAX CINR comparison result and the WiMAX RSSI comparison result of the selected antenna.

  If it is not possible to determine whether or not to switch the currently selected antenna at this time, the antenna selecting unit 14 subsequently switches the currently selected antenna using the comparison result of the adjacent frequency band RSSI in the currently selected antenna. Secondary determination is performed to determine whether or not.

  At this time, the candidate antenna selection unit 15 collects information on the average value of WiMAX CINR from all antenna management units corresponding to other antennas other than the currently selected antenna, and calculates the average of WiMAX CINR from other antennas. A predetermined number is selected in descending order.

  For this reason, the antenna selection unit 14 selects one of the predetermined number of antennas selected by the candidate antenna selection unit 15 when it is determined in the primary determination or the secondary determination that the antenna being selected is switched. .

  However, the antenna selection unit 14 compares the average value of WiMAX CINR between the selected antenna and each of the predetermined number of antennas selected by the candidate antenna selection unit 15, and as a result, the average value of the selected antenna If is the highest, stop switching the currently selected antenna.

  Hereinafter, the operation of the communication device of the present embodiment will be described with reference to FIGS. 2 and 3. Here, it is assumed that the antenna 10-1 is being selected.

  Referring to FIG. 2, each of the antenna management units 13-1 to 13-n monitors WiMAX CINR, WiMAX RSSI, and adjacent frequency band RSSI in a corresponding antenna at a constant period (step A1), and WiMAX CINR, For each of WiMAX RSSI and adjacent frequency band RSSI, the average value of the immediately preceding fixed period is compared with the latest value (step A2).

  Next, the antenna selection unit 14 uses the comparison result between the WiMAX CINR average value and the latest value in the selected antenna 10-1 and the comparison result between the WiMAX RSSI average value and the latest value in FIG. A primary determination is made to determine whether or not to switch the antenna 10-1 according to the determination criteria (step A3).

  If it is not determined that the antenna 10-1 is switched in the primary determination (No in Step A4), the antenna selection unit 14 determines the average value of the adjacent frequency band RSSI in the selected antenna 10-1 and the latest value. Using the result of comparison with the value, a secondary determination is made to determine whether or not to switch the selected antenna 10-1 in accordance with the criterion of FIG. 3 (step A5). In the secondary determination, when it is determined not to switch the selected antenna 10-1 (No in Step A6), the process returns to Step A1.

  On the other hand, the candidate antenna selection unit 15 performs WiMAX in the antennas 10-2 to 10-n other than the selected antenna 10-1 in parallel with the primary determination or secondary determination operation by the antenna selection unit 14. Using a comparison result between the average value of CINR and the latest value, a predetermined number of antennas 10-2 to 10-n having the highest WiMAX CINR average value are selected in order (step A7). Here, it is assumed that two antennas 10-2 and 10-3 are selected.

  For this reason, the antenna selection unit 14 selects and selects one of the antennas 10-2 and 10-3 when it is determined that the currently selected antenna 10-1 is switched in the primary determination or the secondary determination. The antenna switching unit 11 is instructed to switch to the antenna. Receiving this, the antenna switching part 11 switches the antenna 10-1 to the antenna instruct | indicated from the antenna selection part 14 (step A8).

  However, the antenna selection unit 14 compares the average value of WiMAX CINR between the selected antenna 10-1 and each of the antennas 10-2 and 10-3, and as a result, the average value of the antenna 10-1 is the highest. If it is higher, the switching of the antenna 10-1 is stopped.

  Here, the primary determination operation and the secondary determination operation by the antenna selection unit 14 will be described in more detail with reference to FIG.

[Primary judgment]
In the primary determination, first, the antenna selection unit 14 compares the difference between the latest value and the average value with a threshold (threshold is, for example, 4 [dB]) in WiMAX CINR, and the latest value is higher than the average value. When it is larger than the threshold value, it is determined as “increase”, when the latest value is smaller than the threshold value than the average value, it is determined as “decrease”, and in other cases, it is determined as “invariant”. Note that the above example of the threshold value is merely an example, and the present invention is not limited to this.

  Similarly, in WiMAX RSSI, the antenna selection unit 14 compares the difference between the latest value and the average value with a threshold value (threshold value is, for example, 6 [dB]), and the latest value is larger than the threshold value than the average value. Is determined to be “increase”, “decrease” is determined when the latest value is smaller than the average value by the threshold value, and “invariable” is determined otherwise. Note that the above example of the threshold value is merely an example, and the present invention is not limited to this.

  Subsequently, the antenna selection unit 14 determines whether or not to switch the antenna 10-1 according to which of the following cases the comparison result determined above corresponds to.

(A) When WiMAX RSSI is “Increase” and WiMAX CINR is “Increase” or “Unchangeable” In this case, WiMAX CINR is not deteriorated, so the radio wave condition of the desired signal in the 2.5 GHz band is normal. It can be determined that the level of the interference wave in the antenna 10-1 has not increased.

  Therefore, the antenna selection unit 14 determines not to switch the antenna 10-1.

(B) When WiMAX RSSI is “increase” and WiMAX CINR is “decrease” In this case, WiMAX RSSR is “increased”, but WiMAX CINR is degraded, and the cause of the degradation is the interference wave It cannot be determined whether the level is increasing.

  Therefore, the antenna selection unit 14 proceeds to secondary determination.

(C) When WiMAX RSSI is “decrease” and WiMAX CINR is “increase” or “invariant” In this case, WiMAX CINR is not deteriorated, so the radio wave condition of the desired wave is normal, and the antenna 10-1 It can be judged that the level of the interference wave has not increased. Moreover, since WiMAX RSSI is “decrease”, there is a high possibility that the radio wave condition of the desired wave is bad. From this, even if the value of WiMAX CINR is small, it can be determined that the cause is the deterioration of the radio wave condition of the desired wave.

  Therefore, the antenna selection unit 14 determines not to switch the antenna 10-1.

(D) When WiMAX RSSI and WiMAX CINR are both “decreased” In this case, WiMAX CINR is degraded. However, since WiMAX RSSI is “decreased”, the cause of the degradation is not an increase in the level of jamming waves. It can be determined that the radio wave condition of the desired wave is worsening.

  Therefore, the antenna selection unit 14 determines not to switch the antenna 10-1.

(E) When WiMAX RSSI is “invariant” and WiMAX CINR is “increase” or “invariant” In this case, WiMAX CINR is not deteriorated, so the radio wave condition of the desired signal in the 2.5 GHz band is normal, It can be determined that the level of the interference wave in the antenna 10-1 has not increased.

  Therefore, the antenna selection unit 14 determines not to switch the antenna 10-1.

(F) When WiMAX RSSI is “Unchangeable” and WiMAX CINR is “Decrease” In this case, WiMAX RSSR is “Unchangeable”, but WiMAX CINR is deteriorated, and the cause of the deterioration is the interference wave It cannot be determined whether the level is increasing.

  Therefore, the antenna selection unit 14 proceeds to secondary determination.

[Secondary judgment]
In the secondary determination, first, the antenna selection unit 14 compares the difference between the latest value and the average value in the adjacent frequency band RSSI with a threshold (threshold is, for example, 10 [dB]), and the latest value is the average value. If it is larger than the threshold value, it is determined as “increase”, if the latest value is smaller than the threshold value than the average value, it is determined as “decrease”, and in other cases, it is determined as “invariant”. Note that the above example of the threshold value is merely an example, and the present invention is not limited to this.

  Subsequently, the antenna selection unit 14 determines whether or not to switch the antenna 10-1 according to which of the following cases the comparison result determined above corresponds to.

(A) When WiMAX RSSI is “increase” and WiMAX CINR is “decrease” (a-1) When adjacent frequency band RSSI is “increase” In this case, the cause of degradation of WiMAX CINR is an increase in the level of the interference wave Can be determined.

  Therefore, the antenna selection unit 14 determines to perform switching of the antenna 10-1.

(A-2) When Adjacent Frequency Band RSSI is “Invariant” or “Decrease” In this case, it can be determined that the cause of the degradation of WiMAX CINR is not an increase in the level of the interference wave.

  Therefore, the antenna selection unit 14 determines not to switch the antenna 10-1.

(B) When WiMAX RSSI is “invariant” and WiMAX CINR is “decrease” (b-1) When adjacent frequency band RSSI is “increase” In this case, the cause of degradation of WiMAX CINR is an increase in the level of the interference wave Can be determined.

  Therefore, the antenna selection unit 14 determines to perform switching of the antenna 10-1.

(B-2) When Adjacent Frequency Band RSSI is “Invariant” or “Decrease” In this case, it can be determined that the cause of the degradation of WiMAX CINR is not an increase in the level of the interference wave.

  Therefore, the antenna selection unit 14 determines not to switch the antenna 10-1.

  As described above, in the present embodiment, antenna switching is performed using the comparison result between the average value and the latest value of the WiMAX RSSI and WiMAX CINR immediately before each WiMAX RSSI and WiMAX CINR in each of the antennas 10-1 to 10-n. I do.

  As described above, in the antenna switching determination, the interference wave level can be more accurately determined by using WiMAX RSSI in addition to WiMAX CINR. Therefore, the interference switching level can be more reliably reduced by the antenna switching. be able to.

  Specifically, in the antenna switching determination, the cause of the degradation of WiMAX CINR is due to an increase in the level of the interference wave (2.4 GHz band), or other factors (for example, the desired wave (2.5 GHz) It is possible to determine whether or not the radio wave condition of the band is).

  As a result, when the cause of deterioration of WiMAX CINR is an increase in the level of the jamming wave, the level of the jamming wave can be reduced by switching the antenna, so the degree of antenna coupling between the desired wave and the jamming wave is lowered. Thus, it is possible to reduce the deterioration amount of the communication quality of the desired wave of WiMAX communication.

  Moreover, since the level of the interference wave can be reduced by providing the above-described antenna switching without providing a high-priced part filter, it is possible to avoid an increase in transmission line loss due to an increase in the filter size.

  However, there are cases where it is not possible to determine whether the cause of the degradation of WiMAX CINR is an increase in the level of jamming waves only with WiMAX CINR and WiMAX RSSI. In that case, it is only necessary to determine whether or not the level of the interference wave has increased by using a comparison result between the average value of the fixed period immediately before the adjacent frequency band RSSI and the latest value.

  Thereby, it can be determined more reliably whether or not the cause of deterioration of WiMAX CINR is an increase in the level of the interference wave.

  Further, in the present embodiment, an antenna having a high WiMAX CINR average value is selected from antennas other than the currently selected antenna, and when antenna switching is performed, the antenna is switched to the selected antenna.

  Thereby, the antenna under selection can be switched to an antenna having a high WiMAX CINR.

  However, when the average value of WiMAX CINR is higher in the selected antenna than in the selected antenna, antenna switching is stopped.

  As a result, it is possible to avoid performing antenna switching such that WiMAX CINR deteriorates.

  The method performed by the communication device of the present invention may be applied to a program for causing a computer to execute. In addition, the program can be stored in a storage medium and can be provided to the outside via a network.

It is a block diagram which shows the structure of the communication apparatus of one Embodiment of this invention. 3 is a flowchart for explaining the operation of the communication device shown in FIG. 1. It is a figure explaining an example of the criteria table shown in FIG.

Explanation of symbols

10-1 to 10-n Antenna 11 Antenna switching unit 12 WiMAX operation unit 13-1 to 13-n Antenna management unit 131 WiMAX CINR monitoring unit 132 WiMAX CINR recording unit 133 WiMAX CINR comparison unit 134 WiMAX RSSI monitoring unit 135 WiMAX RSSI recording Unit 136 WiMAX RSSI comparison unit 137 adjacent frequency band RSSI monitoring unit 138 adjacent frequency band RSSI recording unit 139 adjacent frequency band RSSI comparison unit 14 antenna selection unit 141 determination criterion table 15 candidate antenna selection unit

Claims (30)

A communication device that performs wireless communication using a signal of a first frequency band as a desired wave,
Multiple antennas with different directivities,
A switching unit for switching the plurality of antennas;
A CINR (Carrier to Interference plus Noise Ratio) of the first frequency band signal provided corresponding to each of the plurality of antennas and received by the corresponding antenna is monitored at a constant period. A plurality of CINR monitoring units,
A plurality of CINR comparisons provided corresponding to each of the plurality of antennas and comparing an average value and a latest value of a certain period immediately before CINR of a signal in the first frequency band received by the corresponding antenna And
A plurality of second antennas provided corresponding to each of the plurality of antennas and monitoring RSSI (Received Signal Strength Indication) of a signal of the first frequency band received by the corresponding antenna at a constant period. 1 RSSI monitoring unit;
A plurality of first RSSIs provided corresponding to each of the plurality of antennas and comparing an average value and a latest value for a certain period immediately before RSSI of the signal of the first frequency band received by the corresponding antenna. A comparison unit;
According to the determination criteria using the comparison result of the RSSI average value and the latest value of the signal of the first frequency band received by each of the plurality of antennas and the comparison result of the CINR average value and the latest value, A communication device comprising: a selection unit that selects one of a plurality of antennas and instructs the switching unit to switch to the selected antenna.   The selection unit uses the comparison result between the RSSI average value and the latest value of the signal in the first frequency band received by the selected antenna, and the comparison result between the CINR average value and the latest value, and performs the determination. The communication apparatus according to claim 1, wherein it is determined whether or not to switch the selected antenna according to the reference, and when the selected antenna is switched, one of the other antennas other than the selected antenna is selected. . The criterion is
The latest value of RSSI of the signal in the first frequency band is increased compared to the average value, and the latest value of CINR of the signal in the first frequency band is increased or unchanged compared to the average value. The communication device according to claim 2, wherein in some cases, the selected antenna is not switched. The criterion is
4. The communication device according to claim 2, wherein, when the latest RSSI value of the signal in the first frequency band is decreased as compared with an average value, the communication device according to claim 2 or 3 indicates that the selected antenna is not switched. The criterion is
The latest value of RSSI of the signal in the first frequency band is unchanged compared to the average value, and the latest value of CINR of the signal in the first frequency band is increased or unchanged compared to the average value. 5, the communication device according to claim 2, wherein the selected antenna is not switched. A plurality of second RSSI monitors that are provided corresponding to each of the plurality of antennas and that monitor the RSSI of signals in the second frequency band adjacent to the first frequency band received by the corresponding antennas at a constant period. And
A plurality of second RSSIs provided corresponding to each of the plurality of antennas and comparing an average value and a latest value of a certain period immediately before RSSI of the signal of the second frequency band received by the corresponding antenna. A comparison unit;
Whether the selection unit switches the selected antenna according to a determination criterion further using a comparison result between the average value and the latest value of the RSSI of the signal in the second frequency band received by the selected antenna. The communication device according to claim 2, wherein the communication device is determined. The criterion is
In the case where the latest value of RSSI of the signal in the first frequency band is increased compared to the average value and the latest value of CINR of the signal in the first frequency band is decreased compared to the average value,
If the latest value of RSSI of the signal in the second frequency band is increased compared to the average value, it indicates that the selected antenna is switched,
The latest value of RSSI of the signal in the second frequency band is unchanged or decreased compared to the average value, indicating that the selected antenna is not switched. Communication equipment. The criterion is
In the case where the latest value of RSSI of the signal in the first frequency band is unchanged compared to the average value, and the latest value of CINR of the signal in the first frequency band is decreased compared to the average value. ,
If the latest value of RSSI of the signal in the second frequency band is increased compared to the average value, it indicates that the selected antenna is switched,
The latest RSSI value of the signal in the second frequency band is unchanged or decreased compared to the average value, indicating that the selected antenna is not switched. The communication device described. A selection unit that selects a predetermined number of antennas in order from the highest CINR value of the signal in the first frequency band among other antennas other than the selected antenna;
The communication device according to any one of claims 6 to 8, wherein the selection unit selects one of the selected predetermined number of antennas when switching the selected antenna.   The selecting unit compares an average value of CINR of the signal in the first frequency band between the selected antenna and each of the selected predetermined number of antennas, and the average value of the selected antenna is the highest. The communication device according to claim 9, wherein the switching of the currently selected antenna is stopped. An antenna switching method by a communication device having a plurality of antennas having different directivities and a switching unit that switches the plurality of antennas, and performing wireless communication using a signal of a first frequency band as a desired wave,
A CINR monitoring step of monitoring, for each of the plurality of antennas, a CINR of a signal of the first frequency band received by the antenna at a constant period;
A CINR comparison step of comparing, for each of the plurality of antennas, an average value of a certain period immediately before CINR of a signal in the first frequency band received by the antenna and a latest value;
For each of the plurality of antennas, a first RSSI monitoring step of monitoring RSSI of the signal of the first frequency band received by the antenna at a constant period;
For each of the plurality of antennas, a first RSSI comparison step of comparing an average value and a latest value of a certain period immediately before RSSI of the signal of the first frequency band received by the antenna;
According to the determination criteria using the comparison result of the RSSI average value and the latest value of the signal of the first frequency band received by each of the plurality of antennas and the comparison result of the CINR average value and the latest value, A selection step of selecting one of a plurality of antennas and instructing the switching unit to switch to the selected antenna.   In the selection step, using the comparison result between the RSSI average value and the latest value of the signal in the first frequency band received by the selected antenna and the comparison result between the CINR average value and the latest value, the determination is performed. The antenna switching according to claim 11, wherein it is determined whether to switch the selected antenna according to the criterion, and when the selected antenna is switched, one of the antennas other than the selected antenna is selected. Method. The criterion is
The latest value of RSSI of the signal in the first frequency band is increased compared to the average value, and the latest value of CINR of the signal in the first frequency band is increased or unchanged compared to the average value. The antenna switching method according to claim 12, wherein in some cases, the selected antenna is not switched. The criterion is
The antenna switching method according to claim 12 or 13, wherein when the latest RSSI value of the signal in the first frequency band is decreased as compared with an average value, the selected antenna is not switched. The criterion is
The latest value of RSSI of the signal in the first frequency band is unchanged compared to the average value, and the latest value of CINR of the signal in the first frequency band is increased or unchanged compared to the average value. The antenna switching method according to claim 12, wherein the selected antenna is not switched. A second RSSI monitoring step of monitoring, for each of the plurality of antennas, a RSSI of a signal in a second frequency band adjacent to the first frequency band received by the antenna;
A second RSSI comparison step for comparing each of the plurality of antennas with an average value of a certain period immediately before RSSI of the signal of the second frequency band received by the antenna and the latest value;
In the selection step, whether or not to switch the selected antenna according to a determination criterion further using a comparison result between the average value and the latest value of the RSSI of the signal in the second frequency band received by the selected antenna. The antenna switching method according to any one of claims 12 to 15, wherein: The criterion is
In the case where the latest value of RSSI of the signal in the first frequency band is increased compared to the average value and the latest value of CINR of the signal in the first frequency band is decreased compared to the average value,
If the latest value of RSSI of the signal in the second frequency band is increased compared to the average value, it indicates that the selected antenna is switched,
The latest RSSI value of the signal in the second frequency band is unchanged or decreased compared to the average value, indicating that the selected antenna is not switched. Antenna switching method. The criterion is
In the case where the latest value of RSSI of the signal in the first frequency band is unchanged compared to the average value, and the latest value of CINR of the signal in the first frequency band is decreased compared to the average value. ,
If the latest value of RSSI of the signal in the second frequency band is increased compared to the average value, it indicates that the selected antenna is switched,
The latest RSSI value of the signal in the second frequency band is unchanged or decreased compared to the average value, indicating that the selected antenna is not switched. The antenna switching method described. A selection step of selecting a predetermined number of antennas from the other antennas other than the selected antenna in order from the highest CINR value of the signal in the first frequency band;
The antenna switching method according to any one of claims 16 to 18, wherein, in the selection step, when the antenna being selected is switched, one of the selected predetermined number of antennas is selected.   In the selection step, an average value of CINR of the signal in the first frequency band is compared between the selected antenna and each of the selected predetermined number of antennas, and the average value of the selected antenna is the highest. The antenna switching method according to claim 19, wherein switching of the currently selected antenna is stopped. A communication device that includes a plurality of antennas having different directivities and a switching unit that switches the plurality of antennas, and performs wireless communication using a signal in the first frequency band as a desired wave,
A CINR monitoring procedure for monitoring, for each of the plurality of antennas, a CINR of a signal of the first frequency band received by the antenna at a constant period;
For each of the plurality of antennas, a CINR comparison procedure for comparing an average value and a latest value of a certain period immediately before CINR of a signal of the first frequency band received by the antenna;
For each of the plurality of antennas, a first RSSI monitoring procedure for monitoring RSSI of the signal of the first frequency band received by the antenna at a constant period;
A first RSSI comparison procedure for comparing, for each of the plurality of antennas, an average value and a latest value of a certain period immediately before RSSI of the signal of the first frequency band received by the antenna;
According to the determination criteria using the comparison result of the RSSI average value and the latest value of the signal of the first frequency band received by each of the plurality of antennas and the comparison result of the CINR average value and the latest value, A selection procedure for selecting one of a plurality of antennas and instructing the switching unit to switch to the selected antenna.   In the selection procedure, using the comparison result between the RSSI average value and the latest value of the signal in the first frequency band received by the selected antenna and the comparison result between the CINR average value and the latest value, the determination is performed. The program according to claim 21, wherein it is determined whether to switch the selected antenna according to the reference, and when switching the selected antenna, one of the other antennas other than the selected antenna is selected. The criterion is
The latest value of RSSI of the signal in the first frequency band is increased compared to the average value, and the latest value of CINR of the signal in the first frequency band is increased or unchanged compared to the average value. The program according to claim 22, which indicates that, in some cases, the currently selected antenna is not switched. The criterion is
The program according to claim 22 or 23, wherein when the latest value of RSSI of the signal in the first frequency band is reduced as compared with an average value, the selected antenna is not switched. The criterion is
The latest value of RSSI of the signal in the first frequency band is unchanged compared to the average value, and the latest value of CINR of the signal in the first frequency band is increased or unchanged compared to the average value. 25. The program according to any one of claims 22 to 24, which indicates that the selected antenna is not switched. In the communication device,
A second RSSI monitoring procedure for monitoring the RSSI of a signal in a second frequency band adjacent to the first frequency band received by the antenna for each of the plurality of antennas;
For each of the plurality of antennas, further executing a second RSSI comparison procedure for comparing an average value and a latest value for a certain period immediately before RSSI of the signal of the second frequency band received by the antenna;
In the selection procedure, whether or not to switch the selected antenna according to a determination criterion further using a comparison result between the RSSI average value and the latest value of the signal of the second frequency band received by the selected antenna The program according to any one of claims 22 to 25, wherein: The criterion is
In the case where the latest value of RSSI of the signal in the first frequency band is increased compared to the average value and the latest value of CINR of the signal in the first frequency band is decreased compared to the average value,
If the latest value of RSSI of the signal in the second frequency band is increased compared to the average value, it indicates that the selected antenna is switched,
27. When the latest RSSI value of the signal of the second frequency band is unchanged or decreased compared to the average value, it indicates that the selected antenna is not switched. program. The criterion is
In the case where the latest value of RSSI of the signal in the first frequency band is unchanged compared to the average value, and the latest value of CINR of the signal in the first frequency band is decreased compared to the average value. ,
If the latest value of RSSI of the signal in the second frequency band is increased compared to the average value, it indicates that the selected antenna is switched,
The latest value of RSSI of the signal of the second frequency band is unchanged or decreased compared to the average value, indicating that the selected antenna is not switched. The program described. In the communication device,
Further executing a selection procedure for selecting a predetermined number of antennas in order from the one with the highest average CINR value of the signals in the first frequency band among other antennas other than the selected antenna;
The program according to any one of claims 26 to 28, wherein, in the selection procedure, when the antenna being selected is switched, one of the selected predetermined number of antennas is selected.   In the selection procedure, the average value of the CINR of the signal in the first frequency band is compared between the selected antenna and each of the selected predetermined number of antennas, and the average value of the selected antenna is the highest. 30. The program according to claim 29, wherein switching of the currently selected antenna is stopped.

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