JP2002100917A - Indoor antenna system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an indoor antenna system which can ensure satisfactory reception state indoors, even when the receiving state becomes worse due to obstacles, such as persons, etc., interposed on the propagation path of radio waves by establishing a new radio wave propagation path. SOLUTION: This indoor antenna system is provided with an antenna 21 for transmission, an antenna 11 for reception which receives radio waves from the antenna 21, and a detection section 12 which outputs the radio waves received by means of the antenna 11 as received power. The system is also provided with a control section 13, which outputs a signal that changes the oriented direction of the antenna 11, by comparing the received power outputted from the detecting section 12 with a preset received power threshold, and an antenna directivity changing section 14 which changes the oriented direction of the antenna 11 by the output of the control section 13.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an indoor wireless communication system.

[0002]

2. Description of the Related Art Conventionally, in an indoor wireless communication system, an omnidirectional antenna is used for both a transmitting antenna and a receiving antenna since an installation place of a radio is usually determined by an installation environment. Then, the wireless device once installed is fixed, and a fixed communication network is formed indoors. In addition, the influence of multipath due to reflections on the inner walls, doors, windows and the like of the house is small, and direct waves or once reflected waves are dominant.

[0003]

In such an environment, for example, when an obstacle such as a person is present on the radio wave propagation path, the reception power is significantly reduced and the reception state is deteriorated. Sometimes.

[0004] The present invention has been made in view of the above circumstances, and has as its object the purpose of the present invention even when the reception state is deteriorated indoors due to the presence of an obstacle such as a person on a radio wave propagation path. Another object of the present invention is to provide an indoor antenna system that can establish a new radio wave propagation path and ensure a good reception state.

[0005]

In order to solve the above-mentioned problems, an indoor antenna system according to claim 1 comprises a transmitting antenna, a receiving antenna for receiving a radio wave from the transmitting antenna, and a receiving antenna for receiving the radio wave from the transmitting antenna. A detection unit that outputs a radio wave received by the antenna as reception power, and a control unit that compares the output power of the detection unit with a preset threshold value of the reception power and outputs a signal that changes the direction of the antenna. When,
An antenna directivity changing unit that changes the directivity of the antenna according to the output of the control unit is provided.

According to this indoor antenna system, when the receiving antenna receives a radio wave from the transmitting antenna, the detection unit converts the radio wave into reception power and outputs it. The controller compares the output power value with a preset threshold value of the received power. When the output power value falls below the threshold value, that is, when an obstacle such as a person is present on the radio wave propagation path and the reception state deteriorates, the control unit controls the antenna directivity changing unit toward the antenna directivity changing unit. And outputs a signal for changing the directivity direction. Upon receiving this signal, the antenna directivity changing unit changes the directivity of the antenna to establish a new radio wave propagation path. Therefore, a good reception state can be ensured.

The indoor antenna system according to the second aspect is the indoor antenna system according to the first aspect,
The antenna directivity changing unit has a function of switching a directivity direction of an antenna in a plurality of stages.

According to this indoor antenna system, when the control unit outputs a signal for changing the directivity of the antenna toward the antenna directivity changing unit, the antenna directivity changing unit that receives the signal transmits the signal to the antenna directivity changing unit. The direction is changed to a direction different from the current directing direction.
Then, if the output power of the detector in the changed directivity direction exceeds the threshold value, communication is performed on the radio wave propagation path as it is. However, if it is still below the threshold value, the above operation is repeated to establish a new radio wave propagation path. In this manner, a good reception state can be ensured, and since the directivity direction of the antenna is only switched stepwise, control can be easily performed.

Further, the indoor antenna system according to a third aspect of the present invention is the indoor antenna system according to the first aspect, wherein the antenna directivity changing unit has a function of continuously changing the directivity of the antenna. A storage unit for storing the output power from the detection unit when the directional direction of the antenna is continuously changed, wherein the control unit changes the directional direction of the antenna over the entire range within a predetermined angle; And a function of outputting a signal for adjusting the directivity of the antenna to an angle at which the output power stored in the unit is maximized.

According to this indoor antenna system, when the control section outputs a signal for changing the directivity of the antenna toward the antenna directivity changing section, the antenna directivity changing section which has received the signal outputs the signal. The direction is changed over the entire range within a predetermined angle, and the resulting output power from the detection unit is stored in the storage unit. Then, the control unit again adjusts the antenna in the directional direction in which the power is the largest among the output powers stored in the storage unit. When the output power from the detector is below the threshold value, the above operation is repeated in order to establish a new radio wave propagation path. By performing the control with high accuracy in this way, a better reception state can be ensured.

According to a fourth aspect of the present invention, in the indoor antenna system according to any one of the first to third aspects, the control unit outputs the signal for changing the directivity of the antenna after a predetermined period of time. It has a function of returning the direction to the initial setting direction.

According to this indoor antenna system, at an indoor installation location, as an initial setting of the directional direction of the antenna, the directional direction of the antenna is previously adjusted to a direction in which the reception state is good. When the control unit outputs a signal to change the directivity of the antenna toward the antenna directivity changing unit, it starts counting a certain time,
When the time has elapsed, the control section outputs a signal to the antenna directivity changing section again to return the pointing direction of the antenna to the initial setting direction. For this reason, when the reception state deteriorates, even when communication is performed on a new radio wave propagation path, the reception state is good at the next communication by returning to the propagation path that was initially set after a certain period of time. Communication can be started in the initial setting direction.

According to a fifth aspect of the present invention, in the indoor antenna system of the first to fourth aspects, the transmitting antenna is an omnidirectional antenna, and the receiving antenna is a directional antenna. It is characterized by the following.

The indoor antenna system according to claim 6 is
The indoor antenna system according to any one of claims 1 to 4, wherein the transmitting antenna is a directional antenna, and the receiving antenna is a non-directional antenna.

According to a seventh aspect of the present invention, there is provided an indoor antenna system,
The indoor antenna system according to any one of claims 1 to 4, wherein the transmitting antenna is a directional antenna, and the receiving antenna is a directional antenna.

According to the indoor antenna system of the fifth to seventh aspects, even if the indoor installation environment is various, the best combination of antennas can be selected, and the indoor radio communication system adapted to the installation environment Can be selected.

[0017]

Embodiments of the present invention will be described below. FIG. 1 is a block diagram of the indoor antenna system according to the first embodiment of the present invention.

This indoor antenna system includes a transmitter 20 constituting a transmitting antenna system and a receiver 10 constituting a receiving antenna system indoors.
The transmitter 20 and the receiver 10 are provided with a transmitting antenna 21 and a receiving antenna 11, respectively. These antennas include an omnidirectional antenna and a directional antenna.
Hereinafter, a is applied to the omnidirectional antenna, and b is applied to the directional antenna.

In this embodiment, the transmitter 20 is provided with an omnidirectional transmitting antenna 21a. Receiver 1
0, a directional receiving antenna 11b for receiving a radio wave from the omnidirectional transmitting antenna 21a, and a detection unit 12 for converting the radio wave received by the directional receiving antenna 11b into reception power and outputting the same. ing. Further, in this indoor antenna system, the receiver 10 compares the output power of the detector 12 with a preset threshold value of the received power, and outputs a signal for changing the directivity of the directional receiving antenna 11b. A control unit 13 for outputting a signal, and an antenna directivity changing unit 14 for changing the directivity of the directivity receiving antenna 11b stepwise to a direction different from the current directivity by the output signal of the control unit 13 are provided. I have.

The operation of the indoor antenna system according to the present embodiment will be described. When a radio wave from the omnidirectional transmission antenna 21a provided in the transmitter 20 is received by the directional reception antenna 11b provided in the receiver 10, the radio wave received by the detection unit 12 is converted into reception power. Output. Then, the control unit 13 compares the output power of the detection unit 12 with a preset threshold value of the received power. As a result, when the output power is higher than the preset threshold value of the received power, communication is performed on the radio wave propagation path as it is. However, when the output power is lower than a preset threshold value of the received power, for example, when an obstacle such as a person is present on a radio wave propagation path and the reception state is deteriorated, the control unit 13 sets the antenna It outputs a signal to the directivity changing unit 14 to change the directivity of the directivity receiving antenna 11b stepwise to a direction different from the current directivity. The directional direction of the directional receiving antenna 11b is changed by this output signal, and if the output power of the detector 12 in the directional direction exceeds the threshold,
Communication is performed in the same radio wave propagation path. But,
If it is still below the threshold, the above operation is repeated to establish a new radio wave propagation path. In this way, a good reception state can be ensured.

Next, a second embodiment of the present invention will be described with reference to FIG.
This will be described with reference to FIG. This indoor antenna system includes an antenna directivity changing unit 14 that can continuously change the directivity of the directivity receiving antenna 11b.
The indoor antenna system further includes a storage unit 15 for storing output power from the detection unit 12 when the directional direction of the directional reception antenna 11b is continuously changed. A function of changing the directivity of the antenna 11b for the entire area within a predetermined angle, and outputting a signal for adjusting the directivity of the directional receiving antenna 11b to an angle at which the output power stored in the storage unit 15 is maximized. This is different from the first embodiment in that

The operation of the indoor antenna system according to the present embodiment will be described. When the control unit 13 outputs a signal for changing the directivity of the directional receiving antenna 11b to the antenna directivity changing unit 14, the antenna directivity changing unit 14 that has received the signal outputs the signal of the directivity of the directional receiving antenna 11b. The direction is changed over the entire range within a predetermined angle, and the output power from the detection unit 12 at that time is stored in the storage unit 15. Then, the control unit 13 adjusts the directional receiving antenna 11b to the directional direction in which the power is the maximum from the output power stored in the storage unit 15 again.
However, if the output power from the detection unit 12 is still lower than the threshold value after changing the directivity, the above operation is repeated to establish a new radio wave propagation path. By performing the control with high accuracy in this way, a better reception state can be ensured.

In the first and second embodiments, the transmitter 20 has a non-directional antenna, the receiver 10 has a directional antenna, and the receiver has a system configuration in which the directivity of the antenna is changed. However, the present invention is not limited to this.
An omnidirectional antenna may be provided in the receiver 10, and the system configuration may be such that the directivity of the antenna is changed on the transmitter side. In that case, the antenna directivity changing unit 14 may be provided on the transmitter side.

A third embodiment of the present invention will be described with reference to FIG. In the indoor antenna system, the transmitter 20 causes the directional transmission antenna 21b and the output signal of the control unit 13 to gradually change the directional direction of the directional transmission antenna 21b to a direction different from the current directional direction by an output signal of the control unit 13. An antenna directivity changing unit 14 is provided. Further, the receiver 10 is provided with a directional receiving antenna 11b and a detector 12 for converting radio waves received by the directional receiving antenna 11b into reception power and outputting the received power. Further, in this indoor antenna system, the receiver 10 includes the detector 1
The control unit 13 outputs a signal for changing the directivity of the directional transmitting antenna 21b and the directional receiving antenna 11b by comparing the output power of No. 2 with a preset threshold value of the received power. There is provided an antenna directivity changing unit 14 for changing the directivity of the directivity receiving antenna 11b stepwise to a direction different from the current directivity by the output signal of the control unit 13. Further, the receiver 10 includes a storage unit 15 that stores the output power from the detection unit 12 in the combination of the directional directions of the directional transmission antenna 21b and the directional reception antenna 11b.

The operation of the indoor antenna system according to the present embodiment will be described. If an obstacle such as a person is present on the radio wave propagation path and the reception state is deteriorated and the output power of the detection unit 12 falls below the threshold value, the control unit 13 sets the antenna directivity of the transmitter 20 side. A signal for fixing the directional transmission antenna 21b is output to the changing unit 14. Further, the control unit 13 outputs a signal for changing the directional receiving antenna 11b in a stepwise manner to the antenna directivity changing unit 14 on the receiver 10 side. Therefore, the output power from the detection unit 12 in the combination of the directional directions of the directional transmission antenna 21b and the directional reception antenna 11b is stored in the storage unit 15. Next, the control unit 13 controls the transmitter 2
A signal for switching the directivity transmitting antenna 21b to a direction different from the current directivity direction is output to the antenna directivity changing unit 14 on the 0 side, and the signal is again transmitted to the antenna directivity changing unit 14 on the receiver 10 side. Directional receiving antenna 11b
Is output. Then, while switching the directional direction of the directional receiving antenna 11b, the output power from the detection unit 12 in the combination of the directional directions at this time is stored in the storage unit 15. Repeat this,
The combination of the directional directions of the transmitting antenna 21b and the directional receiving antenna 11b that maximizes the output power from the detector 12 is found and set. Therefore, a new radio wave propagation path can be established, and a good reception state can be ensured.

In the first to third embodiments, the control unit 13 is provided with a function of returning the directional direction to the initially set direction after a predetermined time from outputting a signal for changing the directional direction of the directional antenna. You can also. As a result, an obstacle such as a person temporarily intervenes on the propagation path of the radio wave and the reception state deteriorates. Even if the communication path is changed and the communication path is restored, if the propagation path is recovered, The original propagation path can be established. When the next communication is performed, the communication can be started in the initial setting direction in which the reception state is good.

Further, according to the present invention, the best combination of antennas can be selected according to the indoor installation environment, and the function of the antenna directivity changing unit is selected, so that communication can be performed with accuracy as required. be able to.

[0028]

As described above, according to the present invention, in an indoor radio communication system, even if an obstacle such as a person is present on the propagation path of a radio wave and the reception condition is deteriorated, By changing the directivity of the transmitting antenna or the receiving antenna, a new radio wave propagation path can be established, and a good reception state can be ensured.

[Brief description of the drawings]

FIG. 1 is a block diagram of an indoor antenna system according to a first embodiment of the present invention.

FIG. 2 is a block diagram of an indoor antenna system according to a second embodiment of the present invention.

FIG. 3 is a block diagram of an indoor antenna system according to a third embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 Receiving antenna 12 Detection part 13 Control part 14 Antenna directivity change part 15 Storage part 21 Transmission antenna

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Takayuki Arai 1048, Kazuma, Kadoma, Osaka Prefecture Matsushita Electric Works Co., Ltd. F-term (reference) 5J021 CA06 DA02 DB04 EA04 FA17 FA24 FA25 FA26 FA31 GA02 HA05 5K059 CC04 5K067 AA01 BB45 GG11 HH21 KK02 KK03

Claims (7)

[Claims] 1. A transmitting antenna, a receiving antenna for receiving a radio wave from the transmitting antenna, a detecting unit for outputting a radio wave received by the receiving antenna as received power, and an output power of the detecting unit. A control unit that outputs a signal that changes the directivity of the antenna by comparing with a preset threshold value of the received power, and an antenna directivity change unit that changes the directivity of the antenna by the output of the control unit An indoor antenna system, comprising: 2. The indoor antenna system according to claim 1, wherein the antenna directivity changing unit has a function of switching the directivity of the antenna in a plurality of stages. 3. The antenna directivity changing unit has a function of continuously changing the directivity of the antenna, and the antenna system outputs the output from the detection unit when the directivity of the antenna is continuously changed. A signal storage unit for storing power, wherein the control unit changes the directivity of the antenna over the entire range within a predetermined angle, and adjusts the directivity of the antenna to an angle at which the output power stored in the storage is maximized. 2. The indoor antenna system according to claim 1, wherein the indoor antenna system has a function of outputting a signal. 4. The control unit according to claim 1, wherein the control unit has a function of returning the pointing direction to the initial setting direction after a predetermined time from outputting a signal for changing the pointing direction of the antenna. An indoor antenna system according to any of the claims. 5. The indoor antenna system according to claim 1, wherein the transmitting antenna is an omni-directional antenna, and the receiving antenna is a directional antenna. 6. The indoor antenna system according to claim 1, wherein the transmitting antenna is a directional antenna, and the receiving antenna is a non-directional antenna. 7. The indoor antenna system according to claim 1, wherein the transmitting antenna is a directional antenna, and the receiving antenna is a directional antenna.