JPH10163937A - Antenna changeover control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily provide transmission diversity. SOLUTION: A first radio station (base station) successively switches the characteristics of a transmission antenna system 5 and transmits test signals and the number intrinsic to the characteristics of the antenna system from the transmission antenna system 5. In the number selection part 21 of a second radio station (portable equipment), the number intrinsic to the antenna characteristics of the best reception quality is selected from the output of a bit error rate measurement part 17, an electric field strength measurement part 18 and a number read part 20 and is transmitted to the first radio station along with transmission information. In the first radio station which receives the selected number, the characteristics of the transmission antenna system 5 are switched to the selected antenna characteristics and information is transmitted. The test signals and the number intrinsic to the characteristics of the antenna system can be added to the transmission information and transmitted.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an antenna switching control system in a radio communication system, and realizes transmission diversity by switching antenna characteristics. Here, the characteristics of the antenna include not only the directional pattern and the polarization plane of the antenna but also the positional relationship of the antenna.

[0002]

2. Description of the Related Art A diversity technique has been known as a countermeasure for fading in a wireless communication system. The types of diversity include transmission diversity and reception diversity.

In the case of transmission diversity, the characteristics of an antenna system are switched so that radio waves are transmitted in the direction of arrival of radio waves transmitted from a partner radio station.
In this case, (1) the means for measuring the angle of arrival of the radio wave is complicated, large, and expensive. (2) If the transmission frequency and the reception frequency are different, transmission is performed in the direction of arrival of the received radio wave. At present, however, it is not often used because it is not always the best propagation condition for the partner radio station.

[0004] On the other hand, reception diversity has conventionally been widely used because of its easiness of realization.
In general, techniques such as switching a receiving antenna so as to obtain the best reception state or selecting the antenna so as to optimize the directivity are used.

[0005]

Generally, fading is a major problem in a mobile communication system in the microwave band, and in such a case, it is conceivable to apply the above-described diversity technique. However, transmission diversity is rarely employed for the reasons described above. Therefore, for example, when the other party is a portable device and the own station is a base station, radio waves reach the entire service area of the own station in order to communicate with the portable device which does not know where in the area the base station is located. Thus, a transmitting antenna having no directivity is often used, and there are many unnecessary radio waves directed to directions other than the portable device. This not only causes a loss in transmission power of radio waves in terms of efficiency, but also causes interference with other portable devices, which is disadvantageous in effective use of frequency.

Further, when the conventional reception diversity technology is applied to mobile communication in the microwave band, there are the following problems. (1) Since microwaves have a strong straight-line property, shadowing (a phenomenon in which radio waves are shadowed) often occurs.
In this case, when trying to receive a radio wave emitted from the base station with the portable device, if one antenna on the portable device cannot obtain a sufficient reception electric field, a sufficient reception electric field can be obtained with another antenna. In many cases, sufficient diversity gain cannot be obtained only by switching the antenna on the receiving side. (2) In order to realize diversity on the receiving side, the output of the receiving antenna is input to a changeover switch or a coupler, but at this time, a large loss occurs depending on the frequency.

[0007] Therefore, the present invention solves the above-mentioned conventional problems and provides an antenna switching control method capable of obtaining a sufficient diversity gain even in a microwave band mobile communication system. It is an object.

[0008]

In order to achieve the above object, an antenna switching control system according to the present invention has an antenna system capable of switching a plurality of characteristics, and corresponds to the switching of the characteristics of the antenna system. An antenna in a wireless communication system comprising: a first wireless station that sequentially transmits a unique number; and a second wireless station that has a measuring unit that receives a signal of the first wireless station and measures the quality of the signal. In the switching control method, the second wireless station selects a number having the best reception quality from among the unique numbers included in the received signal by comparing measurement results obtained by the measurement means. Transmitting to the first wireless station, and upon receiving the selected unique number, the first wireless station selects an antenna characteristic corresponding to the number, and It is to transmit the information signal using the antenna characteristics.

Another antenna switching method of the present invention has an antenna system capable of switching a plurality of characteristics, and sequentially adds a unique number to an information signal in correspondence with the switching of the characteristics of the antenna system. An antenna switching control method in a wireless communication system including a first wireless station for transmitting, and a second wireless station having a measuring unit for receiving the signal of the first wireless station and measuring the quality of the signal. hand,
The second wireless station selects the number with the highest signal quality among the unique numbers included in the received signal by comparing the measurement results obtained by the measurement means, and selects the first radio station. When transmitting to the wireless station, the first wireless station receives the selected unique number, selects an antenna characteristic corresponding to the number, and uses the selected antenna characteristic to transmit an information signal. Is transmitted.

[0010] As the quality of the signal measured by the measuring means, one or both of the bit error rate and the received electric field strength are used.
The characteristics of the antenna are any one of an antenna directional pattern, an antenna polarization plane, and an antenna positional relationship, or a combination thereof. Furthermore, the first wireless station is a base station in a mobile communication system, and the second wireless station is a portable device in a mobile communication system.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an antenna switching control system according to the present invention will be described by taking an example in which the system is applied to a mobile communication system. In FIG. 1, reference numeral 1 denotes a first wireless station (base station), and the base station 1 is provided with a transmission antenna system capable of switching a plurality of antenna characteristics. The antenna characteristics include directivity, polarization plane, positional relationship of the antenna, and the like. This figure describes a case where the directivity can be switched in four ways. Each shows the directivity of the transmission antenna of the base station 1. That is, the base stations 1
It is configured such that any one of the four directivities # 4 can be selected to transmit a signal.

Reference numeral 2 denotes a portable device. In the example shown in FIG. 1, the portable device 2 is located in the area # 2. In such a case, ideally, the base station 1 for the portable device 2
It is preferable to select only # 2 as the directivity of the transmitting antenna.

Therefore, the antenna switching control method of the present invention employs the portable device 2 so that only the radio wave from the base station 1 directed to the portable device 2 (only # 2 in FIG. 1) is selected. To control the characteristics of the antenna of the base station 1 to establish the best propagation conditions.

The characteristics of the antenna are not limited to the directivity as described above. For example, antennas may be arranged at the four corners of a building where the base station 1 is installed to switch the antenna used for transmission. Switching of the positional relationship between the antennas described above, switching of the polarization plane of the radio wave transmitted from the antenna, or the like can be used.

FIG. 2 shows an example of the configuration of a mobile communication system in which such an antenna switching control method of the present invention is implemented. FIG. 2A is a block diagram illustrating a configuration of a first wireless station (base station) 1, and FIG. 2B is a block diagram illustrating a configuration example of a second wireless station (portable device) 2. In a first wireless station (base station) 1 shown in FIG. 2A, transmission information T1 is transmitted from a transmission antenna system 5 to a portable device 2 via a transmitter 3 and an antenna switch 4 for switching antenna characteristics. Sent. The antenna switch 4 switches the characteristics of the transmission antenna of the transmission antenna system 5 according to a control signal from the transmission control device 7. As aforementioned,
The characteristics of the switched antenna include a directional pattern, a polarization plane, and a positional relationship of the antenna. When the selection number information is included in the reception signal from the receiver 10, the transmission control device 7 controls the antenna switching device 4 so as to select an antenna characteristic corresponding to the selection number.

The transmitter 3 also has a function of transmitting a test signal generated from a test signal generator 6 and a number corresponding to switching of the characteristics of the transmission antenna system. The test signal generated by the test signal generator 6 may be any data that is known in the second wireless station (portable device) 2. For example, a signal modulated by a PN code may be used. it can. When a communication method for transmitting a frame synchronization signal or the like is employed, the frame synchronization signal itself can be used as a test signal. In this case, there is no need to prepare a special device as a test signal generator.

A signal from the second wireless station (portable device) 2 received by the receiving antenna system 8 is received by the receiver 10 through an antenna switch 9 for switching the characteristics of the receiving antenna system 8, Output as reception information R1. The reception control device 11 checks the reception state of the receiver 10 and controls the antenna switch 9 so that the reception level becomes highest.

On the other hand, in the second wireless device (portable device) 2 shown in FIG. 2B, the transmission information T2 is combined by the combining unit 12 with the antenna switching number (selection number) output from the number selection unit 21. The signal is transmitted from the transmitter 13, the circulator 14, and the antenna 15 to the first wireless station (base station) 1. Further, the received signal received by the antenna 15 and passed through the circulator 14 is input to the receiver 16, the received information R 2 is extracted by the separating unit 19, and output to the subsequent stage.

If the output x16 of the receiver 16 contains the test signal, the bit error rate measurement unit 17
Measure the signal quality for the bit error rate. Also, the quality of the received signal is evaluated with respect to the received electric field strength, and the electric field strength measuring means 18 is used for this purpose. When a switching number (a number unique to the characteristic) of the transmitting antenna system is transmitted in the output x16 of the receiver 16, the number is separated by the separating unit 19 and read by the number reading unit 20. . Bit error rate measurement unit 17,
The outputs of the electric field strength measuring section 18 and the number reading section 20 are sent to the number selecting section 21, respectively, and the number having the best reception quality is selected. The selected number with the best reception quality is added to the transmission information T2 in the combining section 12 and transmitted to the first wireless station 1.

In the wireless communication system configured as described above, in order to select an optimum antenna characteristic, the first wireless station sequentially switches a number and a test signal corresponding to the switching of the antenna characteristic while switching the antenna characteristic. Send. The second wireless station measures the quality of the received signal, selects the number corresponding to the signal received with the best quality, and transmits the number to the first wireless station 1. The first wireless station having received the selection number switches information of the antenna to a characteristic corresponding to the selection number and transmits information. Accordingly, it is possible to transmit a signal by controlling the antenna characteristics of the first wireless station so that the reception quality is the best for the second wireless station.

A first embodiment of such an antenna switching control system of the present invention will be described with reference to a timing chart shown in FIG. In the figure, the horizontal axis indicates the time axis, and as shown in the figure, the first wireless station 1 switches the characteristics of the transmission antenna system 5 by the antenna switcher 4 while being unique to the characteristics of the transmission antenna system. And the appropriate number together with the test signal to the second wireless station. In this example, the characteristics of the transmitting antenna system are switched in four ways, and four numbers # 1 to # 4 are respectively transmitted together with the test signals.

The number selection section 21 of the second radio station receiving the unique numbers # 1 to # 4 and the test signal,
The quality information from the bit error rate measuring unit 17 and the electric field strength measuring unit 18 is input together with the number information from the number reading unit 20, and the number (#N) having the highest quality of the received signal is selected. Then, this number #N is output to the combining section 12 as an antenna system switching number, and is sent back to the first wireless station via the transmitter 13.

When the first radio station receives the number (#N) selected by the second radio station, the transmission control device 7 transmits the antenna characteristic corresponding to the number to the antenna switching device 4. The control signal to be selected is output, the characteristic of the antenna system 5 corresponding to the number (#N) is selected, and the information signal is transmitted. In the drawing, the period indicated by the broken line indicates a period in which the antenna characteristics of the antenna system 5 are switched to the characteristics specified by the selection number. In this way, it is possible to select the highest quality antenna characteristic and transmit the information.

Next, another embodiment of the antenna switching control system of the present invention will be described with reference to FIG. This embodiment relates to a case where an information signal is constantly transmitted and received between a first wireless station and a second wireless station. As shown in FIG. 4, in this embodiment, every time the first wireless station transmits an information signal, the first wireless station follows the information signal and switches the same antenna system switching number (# 1 to # 1) as described above. # 4) and the test signal are transmitted while switching the antenna system.

The number selector 21 of the second radio station receiving this signal selects a number unique to the antenna characteristic having the highest reception quality in the same manner as in the first embodiment. The selected number is output to the synthesizing unit 12. The combining unit 12 adds the selection number output from the number selection unit 21 after the transmission information T2, and transmits the transmission information T2 to the first wireless station via the transmitter 13. This second
The transmission control device of the first wireless station that has received the selection number from the wireless station selects the antenna characteristic corresponding to the selection number with the antenna switcher 4, and sets the next transmission information and the antenna system switching number. Transmission is performed according to the selected antenna characteristics.

In the above description, the switching number of the antenna system is transmitted following each information signal.
The present invention is not limited to this, and may be added to the information signal at predetermined time intervals and the antenna system switching number may be transmitted. Also, an example has been described in which the switching number of the antenna system is added after the information signal and transmitted. However, the present invention is not limited to this, and transmission may be performed prior to the information signal. According to the second embodiment, the transmitter is not started only for transmitting the switching number of the antenna system as in the case of the first embodiment described above. There is an advantage that transmission efficiency is improved.

Although the above description has been made on the assumption that the characteristics of a plurality of (for example, four) antennas are switched, the number of antenna characteristics to be switched can be any number. Further, the characteristics of the antenna can be continuously changed. In the above description, a mobile communication system has been described as an example, but the present invention is not limited to this, and it is apparent that the antenna switching control method of the present invention can be applied to other wireless communication systems.

[0028]

As described above, according to the antenna switching control system of the present invention, the characteristics of the transmitting antenna system are switched so that the receiving condition is best when viewed from the receiving side every time information is transmitted. Thus, a diversity effect can be expected for the transmitting antenna. Further, according to the present invention, since the radio wave emitted from the transmitter can have directivity so as to be stronger in the direction in which the receiver exists, not only the power efficiency of the radio wave is improved but also Also, the interference characteristics given to other wireless devices can be improved. Especially,
When the transmitter is a base station, a large change can be given to the radio wave propagation area and directivity, so that an improvement effect on shadowing can be expected as compared with the reception diversity only for the portable device.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an application example of an antenna switching control method according to the present invention.

FIG. 2 is a block diagram showing a configuration of a system to which the antenna switching control method of the present invention is applied.

FIG. 3 is a timing chart for explaining an embodiment of an antenna switching control system according to the present invention;

FIG. 4 is a timing chart for explaining another embodiment of the antenna switching control method of the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 first wireless station (base station) 2 second wireless station (portable device) 3, 13 transmitter 4, 9 antenna switcher 5 transmitting antenna system 6 test signal generator 7 transmission controller 8 receiving antenna system 10 Reference Signs List 16 receiver 11 reception control device 12 combining unit 14 circulator 15 antenna 17 bit error rate measuring unit 18 field strength measuring unit 19 separating unit 20 number reading unit 21 number selecting unit

Claims (5)

[Claims] 1. A first wireless station having an antenna system capable of switching a plurality of characteristics, transmitting a unique number sequentially in response to switching of the characteristics of the antenna system, and An antenna switching control method in a wireless communication system including a second wireless station having a measuring unit that receives a signal and measures the quality of the signal, wherein the second wireless station performs a measurement by the measuring unit. By comparing the unique numbers included in the received signal, a number having the highest reception quality is selected and transmitted to the first wireless station. The first wireless station Receiving the selected unique number, selecting an antenna characteristic corresponding to the selected number, and transmitting an information signal using the selected antenna characteristic. formula. 2. A first wireless station having an antenna system capable of switching a plurality of characteristics, sequentially adding a unique number to an information signal and transmitting the information signal in accordance with the switching of the characteristics of the antenna system; An antenna switching control method in a wireless communication system including a second wireless station having a measuring unit that receives a signal of a first wireless station and measures the quality of the signal, wherein the second wireless station includes: By comparing the measurement results by the measuring means, among the unique numbers included in the received signal, select the number with the best signal quality, and transmit to the first wireless station, Upon receiving the selected unique number, the first wireless station selects an antenna characteristic corresponding to the number,
An antenna switching control method for transmitting an information signal using the selected antenna characteristic. 3. The antenna switching control method according to claim 1, wherein the measuring unit measures one or both of a bit error rate and a received electric field strength. . 4. The antenna according to claim 1, wherein the characteristic of the antenna is one of a directivity pattern of the antenna, a polarization plane of the antenna, a positional relationship of the antenna, or a combination thereof. 3. The antenna switching control method according to 1 or 2. 5. The mobile station according to claim 1, wherein the first wireless station is a base station in a mobile communication system, and the second wireless station is a portable device in a mobile communication system. Antenna switching control method.