JP4659687B2 - Wireless communication system and wireless device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wireless communication system and a wireless communication apparatus which are gentle and highly convenient means for a user and enable the user to recognize handover without being troubled by the ringing of a tone signal. <P>SOLUTION: The wireless communication system comprises a line control apparatus, at least first and second base stations connected to the line connection apparatus and a wireless apparatus connected to the base stations through wireless lines. The wireless apparatus comprises a receiving device for receiving signals from the first and second base stations, a speaker for outputting the signal from the receiving device and a control part for controlling the receiving device and the speaker. If the time required for the receiving device to switch a signal of the first base station to a signal of the second base station is shorter than prescribed time T when the wireless apparatus is moved from a wireless area of the first base station to a wireless area of the second base station, the control part controls the speaker to a silent state. <P>COPYRIGHT: (C)2008,JPO&amp;INPIT

Description

  The present invention relates to a wireless communication system and a wireless device, and more particularly to a wireless communication system and a wireless device that control sound generated when a base station is switched when the wireless device moves between base stations.

  One of the digital radio systems currently in practical use is a mobile communication system defined by the standard ARIB STD-T79 (Association of Radio Industries and Businesses-T79) (for example, see Non-Patent Document 1). . FIG. 6 shows a mobile communication system having a plurality of base station zones. In FIG. 6, reference numeral 601 denotes a line control device, and 602-1, 602-2, and 602-3 are radio base stations (hereinafter referred to as base stations). In addition, when representing a base station, it is referred to as a base station 602. Reference numerals 603-1, 603-2, and 603-3 denote base station zones, that is, communication areas of the respective base stations. In addition, when representing a base station zone, it is called a base station zone 603. Reference numerals 604-1, 604-2, 604-3, 604-4, and 604 -N are wireless devices or mobile station wireless devices (hereinafter referred to as wireless devices). In addition, when representing a wireless device, it is referred to as a wireless device 604. The base station 602-1 is a communication connection between a plurality of wireless devices 604-1, 604-2,... 604-N located in the communication area 603-1 and mobile stations via the base station. I have a service. Similarly, the radio base station 602-2 provides a communication connection service between a plurality of radio apparatuses 604 located in the communication area 603-2 and mobile stations via the base stations. The wireless base station 602-3 also provides a communication connection service between a plurality of wireless devices 604 located in the communication area 603-3 and a mobile station via the base station.

  The line control device 601 maintains and manages a communication connection and a service area between a base station and a plurality of wireless devices in a digital wireless communication system, and performs control for calling from the wireless device or setting a communication route. Etc. Note that the line control device 601 may be configured integrally with the base station 602-1 or may be installed at a location distant from each other as shown in FIG. In this case, the line control apparatus 601 and the base station 602 are generally connected by transmission lines 605-1, 605-2, 605-3, or the like such as wired or micro lines. The wireless device described here includes a wireless device, a portable wireless device, an information terminal station, or the like mounted on a vehicle or the like. In the above example, only three base stations are shown, but generally, a system including a plurality of base stations and a large number of wireless devices is normal. 6 will be described.

  FIG. 7 shows an example of radio carrier frequency allocation permitted for use in a digital mobile communication system using the digital radio technology defined by the standard ARIB STD-T79. In FIG. 7, 112 waves (f1, f2,...) Having a width of 25 KHz and a frequency of about 262 MHz to 266 MHz are recognized in the uplink direction, that is, in the direction from the wireless device to the base station. In the downstream direction, that is, in the direction from the base station to the wireless device, a radio carrier F of about 271 MHz to 275 MHz, 9 MHz away from 262 MHz in the upstream direction, has a width of 25 KHz and 112 waves (F1, F2,...). It recognized. Accordingly, in the communication of the digital wireless communication system, the frequencies in the upstream direction f1, f2,..., The downstream directions F1, F2,. Each system can use one or a plurality of radio carriers according to the scale. In the radio communication system shown in FIG. 6, for example, the base station 602-1 uses a pair wave of uplink f1 and downlink F1, and the base station 602-2 uses a pair wave of uplink f3 and downlink F3, Further, the base station 602-3 communicates using a pair wave of uplink f5 and downlink F5.

  Now, in a wireless communication system having a plurality of base stations 602 as described above, when the wireless device (mobile station) 604 moves while performing communication, a case where the wireless device moves beyond the communication area of the base station occurs. For example, the wireless device 604-1 is initially moving in the communication area 603-1 of the base station 602-1, but further moves from the communication area 603-1 of the base station 602-1 to the base station. The case where it moves to the communication area 603-2 of 602-2 occurs. In such a case, the radio apparatus 604-1 needs to disconnect from the base station 602-1 and then connect to the destination, so-called base station 602-2 (generally handover and It is said.). In this case, the audio is interrupted until the connection with the base station 602-1 that is the movement source is disconnected and the connection with the movement destination base station 602-2 is completed. This will be described with reference to FIGS.

  FIG. 8 shows a case where a tone signal is output during the period when the sound is interrupted. That is, during the period t1 when the wireless device 604-1 is connected to the base station 602-1, for example, the received voice 801 from the base station 602-1 is output from the handset (or speaker) of the wireless device 604-1. . During a period t2 from when the wireless device 604-1 disconnects from the base station 602-1 to when the connection with the base station 602-2 is completed, the wireless device 604-1 is moving and the base station is switched. A tone signal 802 that informs the user that the wireless device 601 is connected is output from the handset of the wireless device 604-1. This period T2 generally takes about 0.5 to 20 seconds. When the wireless device 604-1 completes connection with the destination base station 602-2, the reception voice 803 from the base station 602-2 is output from the receiver of the wireless device 604-1 (indicated by a period t3). ). However, if the sound of the tone signal during the base station switching (period t2) takes several seconds, the voice call is hindered, and there is a problem that the user is disturbed.

  FIG. 9 shows a case where the sound is silenced during the period when the sound is interrupted. That is, during the period t4 when the wireless device 604-1 is connected to the base station 602-1, for example, the received voice 901 from the base station 602-1 is output from the handset (or speaker) of the wireless device 604-1. . A period t5 (corresponding to the above-described period T2) from when the wireless device 604-1 disconnects from the base station 602-1 to when the connection with the base station 602-2 is completed is silent 902. Then, when the wireless device 604-1 completes connection with the destination base station 602-2, the reception voice 903 from the base station 602-2 is output from the receiver of the wireless device 604-1 (indicated by a period t6). ). In this case, if the user does not notice the interruption of sound, the user may recognize that the wireless device has failed. As described above, in any case, there is no radio communication system and radio apparatus that are satisfactory for handover, and it is desired to realize a radio communication system and radio apparatus that are user-friendly and highly convenient.

Standard ARIB STD-T79: Municipal digital mobile communication system The Japan Radio Industry Association

  As described above, the sound of the tone signal during the base station switching disturbs the voice call, which is harsh for the user, and may be recognized as a failure of the wireless device during the silent period. is there.

  An object of the present invention is to provide a wireless communication system and a wireless device that are user-friendly and highly convenient.

  Another object of the present invention is to provide a radio communication system and a radio apparatus capable of recognizing handover without being bothered by the sound of a tone signal.

  Still another object of the present invention is to provide a radio apparatus capable of controlling the sounding and stopping of a tone for notifying that the radio apparatus is moving between base stations.

  The present invention includes a line control apparatus, at least first and second base stations coupled to the line control apparatus, and a radio apparatus coupled to the base station via a radio channel, A receiving device that receives signals from the first and second base stations; a speaker that outputs a signal from the receiving device; and a control unit that controls the receiving device and the speaker. When the receiver moves from the radio area of the base station to the radio area of the second base station, the time for the receiver to switch from the signal of the first base station to the signal of the second base station is a predetermined time T If smaller, the control unit is configured to control the speaker to be silent.

  In the wireless communication system of the present invention, when the wireless device moves from the wireless area of the first base station to the wireless area of the second base station, the receiving device transmits a signal of the first base station. When the time for switching from the second base station signal to the second base station signal is greater than the predetermined time T, the control unit divides the predetermined time T into a silent period Tm and a tone generation period Tn to drive the speaker. Configure to control.

  Further, the present invention controls a receiving device that receives a signal from the first base station and a signal from the second base station, a speaker that outputs a signal from the receiving device, and the receiving device and the speaker. In the wireless device having the control unit, when the receiving device moves from the first base station area to the second base station area, the receiving device receives the second base signal from the first base station signal. When the time for switching the reception to the signal of the base station is smaller than the predetermined time T, the control unit silences the speaker, and when the time for switching is larger than the predetermined time T, the control unit T is divided into a silent period Tm and a tone sounding period Tn, and is controlled so as to drive the speaker.

  As described above, according to the present invention, it is possible to realize a wireless communication system and a wireless device that are user-friendly and highly convenient. Further, the handover can be recognized without bothering the tone signal. In particular, when the handover time is short, it is not bothered by the sound of the tone signal, and when the handover time is long, the wireless signal can recognize the handover by the tone signal and take appropriate measures. There is a feature that can realize the device.

  An embodiment of the present invention will be described below with reference to FIGS. 1 to 5 and FIG. FIG. 1 is a block diagram showing a schematic configuration of an embodiment of a line control apparatus 101 and a base station 102 used in the present invention, and FIG. 2 is a block diagram showing a schematic configuration of an embodiment of a radio apparatus. The line control device 101 and the base station 102 shown in FIG. 1 correspond to the line control device 601 and the base station 602 shown in FIG. 6, and the wireless device shown in FIG. 2 is the wireless device 604 shown in FIG. It corresponds to. In this embodiment, the configuration of the digital radio communication system is almost the same as that of the system shown in FIG. Needless to say, the present invention can also be applied to SCPC (Single Channel Per Carrier) digital radio communication systems, TDMA (Time Division Multiple Access) digital radio communication systems, and general digital radio communication systems.

  In FIG. 1, the line control apparatus 101 includes a signal processing unit 103, a control unit 104, and a storage unit 105. The base station 102 includes a transmitting radio 106, a receiving radio 107, and a control unit 108. Note that the line control apparatus 101 and the base station 102 can be configured integrally. The line control apparatus 101 maintains and manages a communication connection and a service area between a base station and a plurality of mobile stations in a wireless communication system. The transmission radio 106 of the base station 102 transmits a signal from the base station to the mobile station 604 using the downlink radio carrier F as described above. On the other hand, the receiving radio 107 receives a signal from the mobile station 604 using the uplink radio carrier f. That is, transmission / reception is performed using a pair wave of the wireless carriers F and f.

  FIG. 2 is a block diagram showing a schematic configuration of the radio apparatus (mobile station) 604. As shown in FIG. Note that the wireless device 604 illustrated in FIG. 2 is a wireless communication device that can transmit and receive using, for example, a paired wave of the downlink wireless carrier F1 and the uplink wireless carrier f1. In FIG. 2, 201 is an antenna that communicates with the base station 102, 202 is a selector switch that switches between transmission and reception at high speed, 203 is a reception unit, 204 is a reception signal processing unit, 205 is a speaker, and 206 is a control. 207 is a storage unit, 208 is a display unit, 209 is an operation unit, 210 is a microphone, 211 is a transmission signal processing unit, and 212 is a transmission unit. The receiving unit 203 and the received signal processing unit 204 constitute a receiving device. Similarly, the transmission unit 212 and the transmission signal processing unit 211 constitute a transmission device.

  In the operation of the wireless device, first, the operation unit 209 is operated, for example, the other party's mobile station number is input using a numeric keypad, and a call button is pressed. Since the transmission state is established when the other party leaves, the audio signal input from the microphone 210 is input to the transmission unit 212 after being subjected to predetermined signal processing for transmission by the transmission signal processing unit 211. The signal input to the transmission unit 212 is subjected to predetermined modulation for transmission, converted to a predetermined transmission frequency f1, output from the antenna 201 via the changeover switch 202, and received by the receiving radio 107 of the base station 102. Sent to.

  On the other hand, a signal from the transmitting radio 106 of the base station 102 is received by the antenna 201 and input to the receiving unit 203 via the changeover switch 202. The signal input to the reception unit 203 is amplified at a high frequency, converted to a predetermined intermediate frequency, further demodulated, and supplied to the reception signal processing unit 204. The reception signal processing unit 204 outputs a sound signal from the speaker 205 after predetermined signal processing, and displays data on the display unit 208 in the case of data.

  Now, an operation when the radio apparatus (mobile station) 604 moves in the base station 602 will be described with reference to FIGS. 3, 6, and 10. FIG. FIG. 3 is a diagram showing an electric field strength curve, in which the vertical axis indicates the electric field strength, and the horizontal axis indicates the distance. The electric field strength curve 301-1 shows the electric field strength curve of the communication area 603-1 of the base station 602-1, and the electric field strength curve 301-2 shows the electric field strength curve of the communication area 603-2 of the base station 602-2. The electric field strength curve 301-3 shows the electric field strength curve of the communication area 603-3 of the base station 602-3 (not shown). And the state in which each communication area partially overlaps each other is shown. In this state, when the wireless device 604-1 moves within the communication area 603-1 of the base station 602-1, base station information is transmitted from the base station 602-1 to the wireless device 604-1 (Step 1001 in FIG. 10). In this state, the wireless device 604-1 always monitors the reception level of the base station 602-1. The reception level in this case is measured by measuring the electric field strength E. This measurement can be performed by, for example, monitoring the gain control voltage of a high-frequency amplifier (not shown) of the reception unit 203 of the wireless device 604-1 by the control unit 206. In addition, the electric field strength can be displayed on the display unit 208 as necessary. The reception level can be measured by measuring the bit error rate (BER) in addition to the measurement of the electric field strength E. However, since the BER is the same as that of the prior art, the detailed description will be given. Is omitted.

  The wireless device 604-1 monitors whether the received electric field E is equal to or higher than the predetermined received electric field Eth (a level at which voice can be heard) (step 1002). If the received electric field E is greater than or equal to the predetermined received electric field Eth (YES), the process proceeds to step 1003 and the call is continued. That is, since the electric field strength curve 301-1 is equal to or higher than the predetermined reception electric field Eth, the call is continued. However, when the wireless device 604-1 gradually moves away from the base station 602-1 and the received electric field E becomes equal to or lower than the predetermined received electric field Eth (NO), the process proceeds to step 1004 and shifts to the peripheral zone monitoring mode. That is, when the point P shown in FIG. 3 is exceeded, the electric field strength curve 301-1 becomes equal to or less than the predetermined reception electric field Eth. Accordingly, the wireless device 604-1 measures the electric field strength (or BER) of the communication area of the surrounding base station. In this peripheral zone monitoring mode, the electric field strength (or BER) from different base stations 602 is measured (step 1005), but the communication areas of the base stations partially overlap as shown in FIGS. ing. 3 and 6 show a state in which the communication areas of the three base stations 602 partially overlap. Generally, the communication areas of the base stations 602 of several to about 20 stations are partially included. Since they overlap, when the wireless device 604-1 enters the peripheral zone monitoring mode, the field strengths of 3 to 5 base stations are sequentially searched in descending order of the field strength (or BER). Note that the level of the predetermined reception electric field Eth that can be received by the wireless device 604-1 can be appropriately set according to the system configuration, radio wave conditions, and the like.

  As a result of searching for neighboring base stations in the neighboring zone monitoring mode, if the electric field strength (or BER) of the neighboring base stations is equal to or lower than the predetermined received electric field Eth (NO), the process proceeds to step 1006 to perform out-of-service processing. That is, the user is informed that a call cannot be made with any base station.

  As a result of searching for neighboring base stations in the neighboring zone monitoring mode, if the electric field strength (or BER) of the neighboring base stations is equal to or higher than the predetermined received electric field Eth (YES), base station selection is performed in step 1007. That is, for example, as shown in FIG. 3, the measurement is performed on the electric field strength curve 301-2 of the base station 602-2 and the electric field strength curve 301-3 of the base station 602-3. Select station 602-2. Then, the wireless device 604-1 transmits a location registration request to the base station 602-2 (step 1008). Receiving the location registration request from the wireless device 604-1, the base station 602-2 transmits the location registration request to the line control device 601 (step 1009).

  When receiving the location registration request from the wireless device 604-1, the control unit 104 of the line control device 601 performs an authentication process with the base station 602-2 (step 1010). That is, when the wireless device 604-1 is authenticated by, for example, an ID and the authentication is established, the line control device 601 stores the wireless device 604-1 in the communication unit 603-2 of the base station 602-2 in the storage unit 105. And registration of location registration completion is transmitted to the base station 602-2 (step 1011). Receiving the location registration completion notification, the base station 602-2 transmits a location registration completion notification to the wireless device 604-1 (step 1012). As a result, the wireless device 604-1 can communicate within the communication area 603-2 of the base station 602-2, and the process proceeds to step 1013. That is, the wireless device 604-1 continues to communicate with the base station 602-2.

  Thus, as described above, when the wireless device 604-1 switches from the base station 602-1 to the base station 602-2, the switching time may take about 0.5 to 20 seconds. In addition, if the radio wave condition is bad, it will take time to search for the surrounding zone, and it will become troublesome to sound a tone to notify the handover as in the conventional case, and if there is no sound, it will be recognized as a failure. . Therefore, the present invention provides a wireless device that improves this. This will be described with reference to FIGS.

  FIG. 4 is a diagram for explaining a case where the switching time between base stations is short. In FIG. 4, during a period t <b> 7 when the wireless device 604-1 is connected to the base station 602-1, for example, the received sound 401 from the base station 602-1 is received from the handset (or speaker) 205 of the wireless device 604-1. Is output. When the wireless device 604-1 is moving and the electric field strength (or BER) of the base station 602-1 is equal to or lower than the predetermined electric field strength Eth as described above, the wireless device 604-1 becomes the base station 602-1. T1 is a period from disconnection to the base station to completion of connection to the base station 602-2. A period during which the reception voice 403 from the base station 602-2 is output from the receiver (or speaker) 205 after the wireless device 604-1 completes connection to the base station 602-2 is t8. In such a case, the switching time T1 between the base stations is set as shown in Table 1. Note that the condition table shown in Table 1 is stored in advance in the storage unit 207 of the wireless device 604-1.

即ち、本発明では、基地局間の切替時間Ｔ１が所定時間Ｔか、またはそれより小さい場合（Ｔ１≦Ｔ）、例えば、Ｔ＝０．５秒とした場合、基地局間の切替時間Ｔ１の期間は、無音とする。これによって無線装置６０４−１からのトーン鳴動がなく、使用者は、トーン鳴動に煩わされることがない。また、０．５秒以内の短時間では、故障と判断されることもない。なお、基地局間の切替時間Ｔ１の検出は、図１０の動作説明で説明したステップ１００４の周辺ゾーン監視モードに移ってから基地局６０２−２の通信エリア６０３−２内で通信が可能となるステップ１０１３までの時間であり、これは無線装置６０４−１の制御部２０６で容易に検出できる。また、所定時間Ｔの設定は、操作部２０９を操作して記憶部２０７に記憶されている条件テーブルの所定時間Ｔを適宜設定することで容易に設定または変更することができる。また、上記実施例では、Ｔ＝０．５秒とした場合について説明したが、所定時間Ｔは、システムの構成、使用環境に応じて適宜設定することができる。

That is, in the present invention, when the switching time T1 between the base stations is the predetermined time T or less (T1 ≦ T), for example, when T = 0.5 seconds, the switching time T1 between the base stations is The period is silent. As a result, there is no tone ringing from the wireless device 604-1, and the user is not bothered by the tone ringing. In addition, it is not determined that there is a failure in a short time within 0.5 seconds. Note that the switching time T1 between the base stations can be detected within the communication area 603-2 of the base station 602-2 after shifting to the peripheral zone monitoring mode in step 1004 described in the operation description of FIG. This is the time until step 1013, which can be easily detected by the control unit 206 of the wireless device 604-1. The predetermined time T can be easily set or changed by operating the operation unit 209 and appropriately setting the predetermined time T in the condition table stored in the storage unit 207. Moreover, although the case where T = 0.5 seconds has been described in the above embodiment, the predetermined time T can be appropriately set according to the system configuration and the use environment.

  Next, FIG. 5 is a figure for demonstrating the case where the switching time between base stations is long. In FIG. 5, during a period t9 in which the wireless device 604-1 is connected to the base station 602-1, for example, the received voice 501 from the base station 602-1 is transmitted from the handset (or speaker) 205 of the wireless device 604-1. Is output. When the wireless device 604-1 is moving and the electric field strength (or BER) of the base station 602-1 is equal to or lower than the predetermined electric field strength Eth as described above, the wireless device 604-1 becomes the base station 602-1. The period from the disconnection to the base station 602-2 to the completion of the connection with the base station 602-2 is T2. A period during which the reception voice 504 from the base station 602-2 is output from the receiver (or speaker) 205 after the wireless device 604-1 completes connection to the base station 602-2 is t10.

  In such a case, the switching time T2 between the base stations is set as shown in Table 1. In the present invention, when the switching time T2 between the base stations is larger than the predetermined time T (T2> T), the switching time T2 between the base stations is divided into (Tm + Tn), the Tm period is silent, and the Tn period is a tone. Operate to sound. For example, the Tm period is set to 0.5 seconds, and the tone from the wireless device 604-1 is sounded for the remaining period Tn. As a result, the user can recognize the handover. Even if the switching time T2 between the base stations is long, the combination of the silent period Tm and the tone sounding period Tn does not bother you with the sounding of the tone, and it is not mistakenly recognized as a failure. Note that the switching time T2 between the base stations can be measured by the control unit 206 as in the case of the switching time T1 between the base stations. The setting of (Tm + Tn) can also be easily set and changed by operating the operation unit 209 and appropriately setting the Tm and Tn in the condition table of Table 1 stored in the storage unit 207. In addition, tone tone can be continuously generated over the Tn period, but can be variously changed such as intermittently sounding, ending once, or sounding twice or more.

  Although the present invention has been described in detail above, the present invention is not limited to the embodiments of the wireless communication system and the wireless device described herein, and can be widely applied to wireless communication systems and wireless devices other than those described above. Needless to say, you can do it.

1 is a block diagram of a schematic configuration of a base station and a line control device used in the present invention. The block diagram of schematic structure of the radio | wireless apparatus used by this invention is shown. It is a figure which shows the electric field strength curve for demonstrating operation | movement of this invention. It is a figure for demonstrating one Example of this invention. It is a figure for demonstrating another Example of this invention. It is a figure which shows schematic structure of the radio | wireless communications system used by this invention. It is a figure for demonstrating the frequency relationship of the radio | wireless carrier used by this invention. It is a figure which shows an example of operation | movement of the conventional radio | wireless apparatus. It is a figure which shows another example of operation | movement of the conventional radio | wireless apparatus. It is a flowchart for demonstrating operation | movement of this invention.

Explanation of symbols

  101, 601: Line control device, 102: Base station, 103: Signal processing unit, 104, 108: Control unit, 105: Storage unit, 106: Radio for transmission, 107: Radio for reception, 201: Antenna, 202 : Changeover switch, 203: reception unit, 204: reception signal processing unit, 205: speaker, 206: control unit, 207: storage unit, 208: display unit, 209: operation unit, 210: microphone, 211: transmission signal processing unit , 212: transmission unit, 602: wireless base station, 603: communication area, 604: wireless device (mobile station), 605: transmission path.

Claims (3)

A line control apparatus; at least first and second base stations coupled to the line control apparatus; and a radio apparatus coupled to the base station via a radio channel, wherein the radio apparatus includes the first and second base stations. A reception device that receives a signal from the second base station, a speaker that outputs a signal from the reception device, and a control unit that controls the reception device and the speaker. When moving from the wireless area to the wireless area of the second base station, switching from when the wireless device disconnects the connection with the first base station until the connection with the second base station is completed When the time is equal to or shorter than a predetermined time T, the control unit controls the speaker to be silent during the switching time . 2. The wireless communication system according to claim 1, wherein when the wireless device moves from a wireless area of the first base station to a wireless area of the second base station, the wireless device communicates with the first base station. When the switching time from disconnection to completion of connection with the second base station is longer than a predetermined time T, the control unit sets the switching time T as a silent period Tm and a tone sounding period Tn. A wireless communication system, wherein the control is performed so that the speaker is driven separately. A radio having a receiving device that receives a signal from the first base station and a signal from the second base station, a speaker that outputs a signal from the receiving device, and a control unit that controls the receiving device and the speaker In the apparatus, when the wireless device moves from the first base station area to the second base station area, the wireless device disconnects from the first base station before the second base station When the switching time until the connection with the station is completed is less than or equal to a predetermined time T, the control unit silences the speaker during the switching time , and when the switching time is greater than the predetermined time T, The control unit controls the switching time to be divided into a silent period Tm and a tone sounding period Tn so as to drive the speaker.

Images