JP2002135198A - Portable terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a portable terminal, wherein the radio wave environment which is dynamically fluctuating is measured as a reception level to display real time the peripheral condition of the portable terminal which is used. SOLUTION: The portable terminal of a radio communication system, comprising at least one radio base station is provided which comprises a plurality of antennas 20, an adaptive array control part 202 which acquires the reception signal in each direction by controlling the directivity of the plurality of antennas 200, a reception level measuring part 109 which measures the reception level of reception signal, a memory 203 in which the reception level is temporarily stored, a control part 204 which displays the reception level stored in the memory 203, and a display part 107 which displays the reception level in each direction, based on the instruction from the control part 204.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a portable terminal,
In particular, the present invention relates to an area electric field display mobile terminal having a reception level measurement function and a display function thereof in a wireless communication system including at least one wireless base station.

[0002]

2. Description of the Related Art FIG. 5 is a block diagram showing an example of the configuration of a conventional portable terminal. First, the connection state of the mobile terminal for a call from the base station and the state where the mobile terminal is waiting for an incoming call will be described. The signal used for measuring the reception level is a control signal channel commonly used by a plurality of mobile terminals, and is simultaneously transmitted to the area covered by the base station. The signal in the high frequency band of the control signal channel transmitted from the base station is received by antenna section 100, frequency-converted to a baseband signal by radio section 101, and demodulation section 103 modulates the transmission signal at the radio base station by demodulation section 103. Is performed. Channel decoder 105 performs error correction processing and data extraction on the demodulated signal input from demodulation section 103, and outputs data to control section 106. Received level measuring section 109
Measures the level of the demodulated signal input from demodulation section 103, and outputs the channel quality of the connected radio base station and the reception levels of the surrounding base stations to control section 106. With the above operation, the mobile terminal measures the control signal channel periodically at a certain time interval or when there is a request from the wireless network.

Here, the control unit 106 includes a CPU,
A wireless protocol process such as connection and disconnection with a wireless base station is performed on an input from the channel decoder 105 and an output to the channel encoder 104. The control unit 10
6 performs processing of a user interface with the display unit 107 and the operation unit 108. Further, control section 106 compares the reference level at which communication with the base station can be sufficiently performed with the reception level input from reception level measurement section 109, and outputs the reception level to display section 107. Display 107
Displays the reception level and the like, and the operation unit 108 outputs the operation of the portable terminal by the user to the control unit 106.

Next, a case where a portable terminal transmits voice and data to a base station will be described. The data output from the control unit 106 is subjected to encoding for error correction and framing corresponding to a radio frame in the channel encoder 104, and is converted into a baseband signal in the modulation unit 102. The radio unit 101 frequency-converts the baseband signal input from the modulation unit 102 into a high-frequency band signal,
The antenna unit 100 transmits a high frequency band signal input from the wireless unit 101.

Next, a method of displaying the above-mentioned reception level will be described. In a conventional mobile terminal, the reception level of a base station connected to a line and a base station capable of receiving a control channel other than the connected base station are measured, and the display unit of the mobile terminal displays The reception level of the base station is displayed by a simple method of about three steps. The display method of the reception level is, for example, based on the number of bars, and indicates that the greater the number of bars, the higher the reception level. If the reception level is sufficiently low, it is determined that the mobile terminal is located outside the area covered by the base station or that the propagation environment is in a poor state, and the mobile terminal goes out of service, that is, in a state in which it is searching for a connectable base station. The display shifts to a display outside the service area on the display unit 107. The reception level measured here is also used for a status report from the mobile terminal to the base station to the radio network using the uplink, or for transmission power control of the radio channel. The user of the portable terminal can grasp the current reception state by measuring and displaying the reception level.

On the other hand, when a radio wave transmitted by a radio communication system propagates through space and reaches a receiving unit of a portable terminal or a base station, there are various propagation paths there. When considering the propagation path from the base station to the mobile terminal, a direct wave optically reaching the mobile terminal directly from the transmitter of the base station, a reflected wave reflected by a building, etc., behind an obstacle such as a mountain A multiplexed wave that arrives via many paths, such as a diffracted wave and a scattered wave, which arrives at the antenna, is received by the antenna. For this reason, interference by multiplex waves occurs, and multipath fading in which the amplitude and phase of the received signal fluctuates as the mobile terminal moves.

[0007]

However, the conventional display method of the reception level in the portable terminal is not enough to display the radio wave propagation state of a complicated and dynamically fluctuating radio wave as described above. Further, only the reception state of a specific place where the portable terminal is located can be grasped, which is not enough to grasp the propagation environment around the portable terminal.

The present invention has been made in view of the above-mentioned problems, and measures a dynamically changing radio wave propagation state as a reception level using an adaptive array antenna, and measures radio wave propagation around a portable terminal used. It is an object of the present invention to provide a mobile terminal capable of displaying a state on a mobile terminal in real time.

[0009]

In order to solve the above-mentioned problems, a portable terminal according to the present invention is provided in a portable terminal of a wireless communication system including at least one wireless base station.
A plurality of antennas, an adaptive array control unit that obtains a reception signal in each direction by controlling the directivity of the plurality of antennas, a reception level measurement unit that measures a reception level of the reception signal, and a memory that stores the reception level. A control unit that performs a display process of the reception level stored in the memory, and a display unit that displays the reception level in each direction based on an instruction from the control unit. is there.

[0010] In the portable terminal according to the present invention, the display section may display the reception level in each of the directions in a radial manner with the portable terminal as a center.

In the portable terminal according to the present invention, the portable terminal further includes a GPS receiver for obtaining position information of the portable terminal, and the display unit detects a change in the reception level around the position information with the movement of the portable terminal. The three-dimensional display is performed as needed.

According to the portable terminal as described above, a dynamically changing radio wave propagation state is measured as a reception level, and the radio wave propagation state around the portable terminal in use can be displayed on the portable terminal in real time. .

[0013]

Embodiments of the present invention will be described below in detail with reference to the drawings. In this embodiment, a case where the present invention is applied to a DS-CDMA (direct spreading code division multiple access) wireless communication system is considered.

FIG. 1 is a block diagram showing a configuration of the portable terminal according to the present embodiment. The same reference numerals as those in FIG. 5 denote the same or corresponding components as those shown in FIG. 5, and a description thereof will be omitted. First, the connection state of the mobile terminal for a call from the base station and the state where the mobile terminal is waiting for an incoming call will be described. The signal in the high frequency band of the control signal channel transmitted from the base station is received by an antenna unit 200 having a plurality of antennas, and frequency converted to a baseband signal by a radio unit 201. Adaptive array control section 202 controls the amplitude and phase of the baseband signal for each antenna, performs synthesis, and outputs the result to demodulation section 103. Memory 203 temporarily stores the result from reception level measuring section 109 and outputs the result to control section 204. Control unit 20
4 outputs the reception level input from the memory 203 to the display unit 107 in addition to the conventional operation.

Next, a case where the portable terminal transmits voice and data to the base station will be described. Adaptive array control section 202 branches the baseband signal input from modulation section 102 and outputs a baseband signal whose amplitude and phase are controlled for each antenna to radio section 201. Radio section 201 frequency-converts each baseband signal input from adaptive array control section 202 to a signal in a high frequency band. The antenna unit 200 transmits each signal in the high frequency band input from the wireless unit 201.

Next, the operation at the time of reception of the adaptive array antenna will be described in detail. FIG. 2 is a diagram showing a basic configuration of the adaptive array antenna. The signal in the high frequency band of the control signal channel transmitted from the base station is received by antenna section 300 having a plurality of antennas. Multiplication unit 301 including the same number of multipliers as antennas
Multiplies each output of the antenna unit 300 by the weight from the weight control unit 303. The combining unit 302 combines the outputs of the multiplying unit 301. Weight control unit 303
Calculates a weight from each input from the antenna unit 300, the array output from the combining unit 302, and control information such as the arrival direction of a desired wave to be measured.

FIG. 3 is a diagram showing an image of antenna directivity. The adaptive array control unit 202 adjusts the directivity so that the main beam of the adaptive array antenna is directed to the arrival direction of the desired wave when the mobile terminal is connected to a normal base station call. To improve communication quality. On the other hand, when the mobile terminal measures the reception level in the surrounding area, the mobile terminal is provided with directivity in all directions in the horizontal plane, regardless of the arrival direction of the desired wave, and connected in each direction. Measure the reception level of the target base station. At this time,
The position of the antenna forming the antenna unit 200 is fixed with respect to the housing of the mobile terminal, and each coordinate (X, Y) in the horizontal direction with the mobile terminal housing as the center can be specified. Or
By coordinate axis conversion, management in polar coordinates is also possible.

As described above, a radial reception level map centering on a portable terminal can be created. The reception level measured for each direction is stored in the memory unit 203. The reception level corresponding to the area map of the display unit is controlled by the control unit 20.
4 and sequentially displayed on the display unit 107.

In a DS-CDMA communication system, each symbol of a transmission signal is spread by a code of several tens to several hundreds of times, so that the arrival delay difference measurement of the path between the portable terminal and a plurality of base stations is performed. It can be performed with high accuracy, and by combining this with the location information of the base station, it becomes possible to provide a location service that allows the user to know where the mobile terminal is located on the map. Alternatively, a GPS (Global Po
A similar service can be provided by providing a (positioning System) receiver.

FIG. 4 is a diagram showing an example of a screen display.
By combining the radial reception level map centered on the mobile terminal measured in the present embodiment with the position information obtained by the location service, the reception level for the position can be displayed three-dimensionally. By combining the measurement result of the reception level and the position information, the moving distance information of the mobile terminal can also be acquired. Therefore, the measurement results of the reception level in each direction centering on the past mobile terminal are stored in the memory. By repeatedly displaying the stored measurement results on the screen according to the distance, it is possible to create a reception level variation map according to the distance in addition to the direction.

The creation of the reception level fluctuation map is effective for grasping the service area of the radio system, evaluating the radio wave propagation environment, and evaluating various developments. Also, the reception level state of the area around the portable terminal is displayed on the idle screen in the standby state, and can be used as a screen saver. Further, by adjusting the directivity so that the main beam of the adaptive array antenna is directed in a specific direction to be measured, it is possible to remove an interference wave such as an interference wave and improve communication quality.

[0022]

As described in detail above, according to the present invention,
Using the adaptive array antenna, a dynamically changing radio wave propagation state is measured as a reception level, and the radio wave propagation state around the portable terminal in use can be displayed on the portable terminal in real time.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a mobile terminal according to the present embodiment.

FIG. 2 is a block diagram illustrating a basic configuration of an adaptive array antenna.

FIG. 3 is a diagram illustrating an image of an antenna directivity.

FIG. 4 is a diagram showing an example of a screen display.

FIG. 5 is a block diagram showing a configuration of a conventional portable terminal.

[Explanation of symbols]

100, 200, 300 antenna unit, 101 radio unit, 102 modulation unit, 103 demodulation unit, 104 channel encoder, 105 channel decoder, 106, 2
04 control unit, 107 display unit, 108 operation unit, 10
9 reception level measurement unit, 201 radio unit, 202 adaptive array control unit, 203 memory, 301 multiplication unit, 302 synthesis unit, 303 weight control unit.

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04Q 7/38 H04B 7/26 D H04M 1/725 109T F-term (Reference) 5J021 AA06 CA06 DB02 DB03 EA04 FA14 FA15 FA16 FA17 FA20 FA26 FA29 FA30 FA32 GA02 HA05 HA10 5K027 AA11 BB01 CC08 FF02 FF22 5K059 CC04 DD35 EE02 5K067 AA03 AA23 CC10 CC24 DD43 DD44 EE02 EE10 EE24 FF03 FF16 FF23 HH21 HH23 KK13 JJ13 JJ52 KK52

Claims (3)

[Claims] 1. A mobile terminal of a wireless communication system including at least one wireless base station, comprising: a plurality of antennas; an adaptive array control unit that obtains a reception signal in each direction by controlling directivity of the plurality of antennas; A reception level measurement unit that measures a reception level of a reception signal; a memory that stores the reception level; a control unit that performs a display process of the reception level stored in the memory; and a control unit that displays the reception level based on an instruction from the control unit. And a display unit for displaying the reception level with respect to a direction. 2. The mobile terminal according to claim 1, wherein the display unit displays the reception level in each of the directions in a radial manner with the mobile terminal as a center. 3. The mobile terminal according to claim 1, further comprising: a position information detecting unit configured to detect a position of the mobile terminal, wherein the display unit is configured to receive the peripheral reception level for the position information accompanying the movement of the mobile terminal. A three-dimensional display as needed.