JP2010171474A - Mobile radio system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile radio system identifying a condition of the occurrence of a communication trouble in a communication area to improve service quality to a user of a mobile station radio device. <P>SOLUTION: The mobile radio system includes mobile station radio devices 11a, 11b. The mobile station radio devices 11a, 11b transmit the positional information, reception input information and reception quality information of the mobile station radio devices 11a, 11b together with control information by a control channel. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a mobile radio system including a mobile station radio apparatus.

  As a conventional mobile radio system, for example, there are a radio system that performs communication between a plurality of base station radio apparatuses and a mobile station radio apparatus, and a system that performs communication between a plurality of mobile station radio apparatuses via a base station radio apparatus Are known. In such a mobile radio system, the mobile station radio device accumulates location information at the time when a communication abnormality such as an abnormal end of conversation occurs, and transmits the accumulated location information to the base station radio device at the next communication access. Was. Then, based on the position information collected by the base station radio device, the service quality in the communication area is confirmed and a dead zone with a poor communication state is investigated (for example, see Patent Document 1).

JP-A-5-336564

  However, in Patent Document 1, the information collected by the base station radio device is only the location information of the mobile station radio device, and the information regarding the quality of the radio channel is insufficient, so the conditions for the occurrence of communication abnormality can be specified. There wasn't. Further, when the frequency of occurrence of communication abnormality increases, the amount of position information transmitted to the base station radio apparatus increases, and there is a problem that it takes time to start normal communication. Furthermore, there is a problem that a memory for accumulating position information when a communication abnormality occurs and a CD-ROM for displaying position information are required, and the system on the mobile station radio apparatus side becomes large.

  The present invention has been made to solve these problems, and an object of the present invention is to provide a mobile radio system capable of specifying conditions for occurrence of communication abnormality within a communication area.

  In order to solve the above-described problems, a mobile radio system according to the present invention is a mobile radio system including a mobile station radio device, and the mobile station radio device uses a control channel to determine position information, reception input of the mobile station radio device. Information and reception quality information are transmitted together with control information.

  According to the present invention, a mobile radio system including a mobile station radio device, the mobile station radio device transmits position information, reception input information, and reception quality information of the mobile station radio device together with control information through a control channel. Therefore, it is possible to specify the conditions for the occurrence of communication abnormality within the communication area.

1 is a configuration diagram of a mobile radio system according to an embodiment of the present invention. It is a block diagram of the mobile station radio | wireless apparatus by embodiment of this invention. It is a block diagram of the base station radio | wireless apparatus and control apparatus by embodiment of this invention. It is a figure which shows the radio | wireless frame format by Embodiment 1 of this invention. It is a flowchart of the information transmission between each apparatus by Embodiment 1 of this invention. It is a figure which shows the data format of the control channel by Embodiment 1 of this invention. It is a figure which shows the information accumulate | stored with the control apparatus by Embodiment 1 of this invention. It is a figure which shows the data format of the communication channel by Embodiment 2 of this invention.

  Embodiments of the present invention will be described below with reference to the drawings.

<Embodiment 1>
FIG. 1 is a configuration diagram of a mobile radio system according to an embodiment of the present invention. As shown in FIG. 1, mobile station radio devices 11 a and 11 b are portable radio devices that perform radio communication with a base station radio device 12 within a communicable area 15 and from a GPS (Global Positioning System) satellite 14. It is possible to acquire location information of the local station. The base station radio device 12 is fixedly installed on the rooftop or mountain top of the building. The control device 13 is connected to the base station radio device 12 and performs communication management and monitoring control of the base station radio device 12 or transmitted from the mobile station radio devices 11a and 11b via the base station radio device 12. The GPS satellite 14 collects, stores, and analyzes position information.

  FIG. 2 is a block diagram of the mobile station radio apparatuses 11a and 11b according to the embodiment of the present invention. As shown in FIG. 2, the CPU 21 performs control processing of the mobile station radio apparatuses 11a and 11b. The display operation unit 22 is installed to display the status of the mobile station radio devices 11a and 11b and to set data such as communication, and the external I / F unit 23 is an interface for connecting to other external devices. The memory unit 24 stores various types of information. The audio signal input from the microphone unit 26 is amplified by one audio amplification unit 25, and the audio signal amplified by the other audio amplification unit 28 is sounded by the speaker unit 27. The voice encoding / decoding unit 29 converts the voice signal input from the microphone unit 26 and amplified by the voice amplifying unit 25 to digital signal so as to be transmitted to the base station radio apparatus 12 via the radio section, The digital data transmitted from the base station radio apparatus 12 via the voice signal is converted to sound as sound from the speaker unit 27 via the audio amplifying unit 28.

  The transmission signal processing unit 30 changes the data digitized by the voice encoding / decoding unit 29 for wireless section transmission, and the changed data is transmitted as radio waves from the antenna 40 via the wireless transmission unit 31 to the wireless section. Is transmitted. The antenna distributor 32 separates the transmission signal and the reception signal, and the frequency generation unit 33 generates a transmission frequency and a reception frequency. The radio reception unit 34 receives the radio wave transmitted from the radio section by the antenna 40 and then transmits the radio wave to the reception signal processing unit 35. The reception signal processing unit 35 converts the received data into digital data. The reception quality detection unit 36 detects an error rate (Bit Error Rate: BER) of the digital data (reception data) converted by the reception signal processing unit 35. The reception input voltage detection unit 37 measures the reception input voltage of the radio wave received by the wireless reception unit 34. The GPS receiver 39 notifies the CPU 21 after the radio wave received from the GPS satellite 14 by the GPS antenna 38 is converted into position information.

  FIG. 3 is a block diagram of the base station radio apparatus 12 and the control apparatus 13 according to the embodiment of the present invention. As shown in FIG. 3, the base station radio apparatus 12 includes a radio unit 41 and a control unit 42, and the control apparatus 13 includes a position information accumulation analysis unit 43. The wireless unit 41 performs wireless transmission and reception with the mobile station wireless devices 11a and 11b, and the control unit 42 performs monitoring control and call connection processing of the wireless unit 41. The location information accumulation analysis unit 43 accumulates and analyzes the location information received from the mobile station radio devices 11a and 11b by the base station radio device 12.

  FIG. 4 is a diagram illustrating a radio frame format according to the first embodiment of the present invention. As shown in FIG. 4, the radio frame format includes a slot called a control channel (control CH) used for communication between the mobile station radio apparatuses 11a and 11b and the base station radio apparatus 12, and the mobile station radio apparatus 11a, It is composed of a slot called a communication channel (communication CH) used for voice communication or data communication between 11b. One frame is composed of one control CH and three communication CHs.

  Next, a communication operation between the mobile station radio device 11a and the base station radio device 12 will be described. As an example, the case where the mobile station radio apparatus 11a exists in the communicable area 15 of the base station radio apparatus 12 and the mobile station radio apparatus 11a performs call connection to the base station radio apparatus 12 for communication will be described. To do.

  FIG. 5 is a flowchart of information transmission between devices according to the first embodiment of the present invention. As shown in FIG. 5, when the mobile station radio device 11 a enters the communicable area 15 of the base station radio device 12, the mobile station radio device 11 a acquires position information from the GPS satellite 14 and receives input voltage from the base station radio device 12. (Electric field) and reception BER (reception quality) are measured (step S90). After the measurement, for example, when it is determined to notify the base station radio apparatus 12 as a location registration message (control information) that the mobile station radio apparatus 11a has entered the communication area 15 (step S91), the call connection message is used together with the step. The data acquired in S90 is transmitted to the base station radio apparatus 12 for notification (step S92). Specifically, in the control channel data format shown in FIG. 6, together with the call connection message 61, the position information (latitude, longitude, height, direction, speed, GPS information quality value) 62 acquired in advance in step S90. The received input voltage value 63 and the received BER information 64 are notified. That is, the mobile station radio apparatuses 11a and 11b transmit the position information, reception input information, and reception quality information of the mobile station radio apparatuses 11a and 11b together with the control information through the control channel.

  By receiving the location registration message transmitted from the mobile station radio device 11a, the base station radio device 12 has entered the communicable area 15 of the base station radio device 12, that is, the base station After recognizing that the wireless device 12 has joined the service (step S93), the mobile station wireless device 11a is notified that the service is provided. That is, the base station radio apparatus 12 extracts position information, reception input information, and reception quality information from the control channel received from the mobile station radio apparatuses 11a and 11b.

  When the mobile station radio apparatus 11a receives the service provision notification from the base station radio apparatus 12 (step S95), the mobile station radio apparatus 11a continues the subsequent control operation. Information received by the base station radio apparatus 12 from the mobile station radio apparatus 11 a is transmitted to the control apparatus 13. Then, in the position information accumulation analysis unit 43 of the control device 13, the reception date and time, GPS information (latitude, longitude, GPS reception quality value), mobile station side reception input voltage, mobile station side reception BER as shown in FIG. Information, base station side received input voltage, base station side received BER information, and mobile station number are accumulated (step S94). That is, the control device 13 accumulates and analyzes the position information, reception input information, and reception quality information extracted by the base station wireless device 12.

  As described above, in the location information accumulation analysis unit 43, information such as the received input voltage and the received BER information at any location within the service area (communication area 15) of the base station 12 is accumulated by the plurality of mobile station radio devices 11. Is done. Then, the location information accumulation analysis unit 43 can create a service area map based on these pieces of information.

  Note that the mobile station wireless device 11 may transmit information as shown in FIG. 6 not only when the location registration message is notified but also when a connection request for other communication is made.

  From the above, it becomes possible to specify conditions for occurrence of communication abnormality within the service area (communication area) of the base station radio apparatus, and it is possible to improve the service quality for the user of the mobile station radio apparatus. In addition, when a situation such as a building is installed in the service area of the base station radio device that may affect the service area, the situation is compared with the data stored in the control device. By doing so, it is possible to easily grasp the cause.

<Embodiment 2>
In the first embodiment, communication of control information between the mobile station radio apparatus and the base station radio apparatus is performed using the control channel (CH). However, in the second embodiment, communication is performed using the communication channel. It is characterized by that. That is, the mobile station radio apparatus in the radio system according to the second embodiment is characterized by transmitting the position information, reception input information, and reception quality information of the mobile station radio apparatus together with communication data information through a communication channel. The base station radio apparatus extracts position information, reception input information, and reception quality information from the communication channel received from the mobile station radio apparatus. Further, the control device accumulates and analyzes the position information, reception input information, and reception quality information extracted by the base station wireless device. Other configurations and operations are the same as those in the first embodiment, and thus description thereof is omitted here.

  FIG. 8 is a diagram illustrating a data format of a communication channel according to the second embodiment of the present invention. As shown in FIG. 8, the communication channel increases the free space by compressing the capacity. By storing GPS position information, received input voltage (electric field) information, and line quality information in this empty area, it can be transmitted together with voice communication.

  In addition to base station radio devices, mobile station radio devices can also extract location information, reception input information, and reception quality information from communication channels received from other mobile station radio devices, so It becomes possible to grasp the receiving state of the other party mutually.

  From the above, the frequency of collecting location information and the like in the base station radio apparatus 12 is increased, and more detailed data can be collected. Further, since the communication channel is used, it is possible to grasp the reception state of the other party between the mobile station radio devices, so that the cause can be easily grasped when the communication quality is poor. In addition, when a situation such as a building is installed in the service area of the base station radio device that can affect the service area, the situation is compared with the data stored in the control device. By doing so, it is possible to easily grasp the cause.

  11a mobile station radio device, 11b mobile station radio device, 12 base station radio device, 13 control device, 14 GPS satellite, 15 communicable area, 21 CPU, 22 display operation unit, 23 external I / F unit, 24 memory unit, 25 audio amplifying unit, 26 microphone unit, 27 speaker unit, 28 audio amplifying unit, 29 audio encoding / decoding unit, 30 transmission signal processing unit, 31 wireless transmission unit, 32 antenna distributor, 33 frequency generation unit, 34 wireless reception 35, reception signal processing unit, 36 reception quality detection unit, 37 reception input voltage detection unit, 38 GPS antenna, 39 GPS receiver, 40 antenna, 41 radio unit, 42 control unit, 43 position information accumulation analysis unit.

Claims (7)

A mobile radio system comprising a mobile station radio device,
The mobile radio system according to claim 1, wherein the mobile station radio device transmits position information, reception input information, and reception quality information of the mobile station radio device together with control information by a control channel.   The mobile station according to claim 1, further comprising a base station radio apparatus that extracts the position information, the reception input information, and the reception quality information from the control channel received from the mobile station radio apparatus. Wireless system.   The mobile radio system according to claim 2, further comprising a control device that accumulates and analyzes the position information, the reception input information, and the reception quality information extracted by the base station radio device. A mobile radio system comprising a mobile station radio device,
The mobile radio system according to claim 1, wherein the mobile station radio device transmits position information, reception input information, and reception quality information of the mobile station radio device together with communication data information through a communication channel.   The mobile according to claim 4, further comprising: a base station radio apparatus that extracts the position information, the reception input information, and the reception quality information from the communication channel received from the mobile station radio apparatus. Wireless system.   The mobile radio system according to claim 5, further comprising a control device that accumulates and analyzes the position information extracted by the base station radio device, the reception input information, and the reception quality information.   The mobile station radio apparatus further comprising a mobile station radio apparatus different from the mobile station radio apparatus that extracts the position information, the reception input information, and the reception quality information from the communication channel received from the mobile station radio apparatus. The mobile radio system according to claim 4.

Images