JP2002159039A - Mobile radio communication management system - Google Patents

Abstract

(57) [Summary] [PROBLEMS] To improve the communication quality at the time of high-speed movement by quickly detecting a base station located in the traveling direction of a mobile radio terminal and selecting the base station as a candidate for the next communication. A wireless communication management system is provided. A control unit (13) detects a traveling direction of a mobile radio terminal (1) based on position information of the mobile radio terminal (1), and, among base station information currently registered in a neighbor set, a current position of the mobile radio station terminal. Base stations 2a and 2b existing in a predetermined fan-shaped area extending in the traveling direction centered on the base station, and further, the extracted base station out of the reception strength of the pilot signal of each base station received from the mobile radio terminal 1. A predetermined value is added to the reception strengths of the pilot signals 2a and 2b, and it is determined whether or not to register the base station as an active set candidate based on the reception strength.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile radio communication management system for suitably switching base stations as a mobile radio terminal moves.

[0002]

2. Description of the Related Art Usually, code division multiple access (C)
In a mobile telephone system (DMA), pilot signals having different phase offsets are fixedly assigned to each base station, and the mobile radio terminal identifies each base station by detecting the offset of the pilot signal. In the process of searching for a pilot signal from each base station, for example, the Radio Industry Association's “CDMA portable mobile phone system standard ARIB STD-T53 1.
In the “first edition”, a set of the following four pilot offsets is defined.

Active set: A set of pilot offsets assigned to a base station with which a mobile radio terminal is currently communicating (a base station to which a communication channel has been allocated with the mobile radio terminal). Candy date set: The pilot is received at a strength equal to or greater than a predetermined value predetermined by the mobile radio terminal (strength considered to be sufficient to maintain a good call),
A set of pilot offsets assigned to base stations that have not yet been made a member of the active set by processing on the network side including the base station and the base station controller. Neighbor set: A set of pilot offsets assigned to base stations that may be candidates for establishing good communication with mobile wireless terminals. Remaining Set: A set of all other pilot offsets possible in the current system except the pilot offsets included in the current active set, candy date set, and neighbor set.

[0004] A mobile radio terminal during a call scans a pilot signal having an offset value in a list of neighbor sets notified from a base station (a network including a base station and a base station controller). The reception strength of the pilot signal from each base station is measured. As a result of the measurement,
If there is a pilot signal received at an intensity exceeding a predetermined threshold (threshold for determining whether or not good communication can be established between the mobile radio terminal and the base station, reception intensity), The offset value is added to the candy date set held by the mobile radio terminal, and the measurement result is reported to the base station side.

[0005] As for the candy date set, the mobile radio terminal measures the received signal strength of the pilot signal having the offset value in the list and determines a predetermined threshold value (neighbor set value) for the received signal strength of the pilot signal currently in the active set. If the increase is detected, the measurement result is reported to the base station controller via the base station side, that is, the currently active base station. Based on the measurement result of the pilot signal reception strength from the mobile wireless terminal, the base station controller determines whether to include an offset of a pilot received by the mobile wireless terminal exceeding a predetermined threshold in the active set (the pilot offset is assigned to the active set). (Ie, whether to set a communication channel with the mobile radio terminal in the base station).

When a new pilot offset is included in the active set as a result of the determination on the base station side, the base station controller sets a communication channel with the mobile radio terminal to the base station having the pilot offset, and To establish communication with a new base station via the mobile radio terminal currently communicating.

[0007]

However, in the conventional system as described above, when the base station determines the active set based on the report of the pilot reception strength from the mobile radio terminal, the mobile radio is used. Information on the position, traveling direction, and speed of the terminal is not directly used. (For the position information, if a neighbor set is determined from base stations surrounding each base station included in the active set, indirect information is used. Even if the mobile radio terminal is moving at high speed, there is a possibility that a base station that is not in the traveling direction of the mobile radio terminal is included in the active set.

In a situation where a mobile radio terminal is moving at a high speed and a base station which is not in the traveling direction of the mobile radio terminal is dominant,
It is conceivable that communication quality is degraded due to a decrease in received signal strength at one or both of the mobile radio terminal and the base station as the distance between the mobile radio terminal and the base station increases. If a pilot received by the mobile radio terminal at a strength equal to or higher than a predetermined threshold is found by measuring the reception strength of the pilot signal, the call quality may be restored by adding the base station to which the pilot is assigned to the active set. However, if the situation where the base station that is not in the direction of travel of the mobile radio terminal is dominant is repeated, it is conceivable that the call quality will deteriorate in a short time, and in the worst case, the call will be disconnected. Occurs.

The present invention has been made in view of such circumstances, and detects a base station located in the traveling direction of a mobile radio terminal as soon as possible and lists the base station as a candidate to be used next for communication. It is an object of the present invention to provide a mobile radio communication management system that improves call quality during high-speed movement.

[0010]

In order to achieve the above object, the present invention provides a mobile radio communication management system for managing communication performed between a mobile radio terminal and a base station, based on position information of the mobile radio terminal. A traveling direction detecting means for detecting a traveling direction of the mobile radio terminal, and extracting a base station present in a predetermined area in a traveling direction of the mobile radio terminal from among base stations currently registered in the candidate list. Base station extracting means, and transmitting means for transmitting information on base stations registered in the candidate list so as to be able to recognize whether or not the base station exists in the predetermined area. I do. According to the above configuration, the traveling direction of the mobile radio terminal is detected based on the position information of the mobile radio terminal transmitted from the mobile radio terminal or the base station, and the base station registered in the neighbor set of the mobile radio terminal is detected. A base station existing in a predetermined fan-shaped area extending in the traveling direction around the current location of the mobile radio station terminal is extracted from the information, and the base station information currently registered in the neighbor set is transmitted to the mobile radio terminal. In doing so, it notifies which of the base stations exists around the traveling direction. As a result, a base station located in the traveling direction of the mobile radio terminal can be preferentially handled as a base station to be used next. Note that the mobile radio communication management system detects the moving speed of the mobile radio terminal from the position information of the mobile radio terminal, and performs the above processing when the moving speed exceeds a preset speed. As described above, the mobile radio communication management system according to the present invention is intended to further improve the communication quality when the mobile radio terminal moves at high speed.

Further, the above-mentioned mobile radio communication management system further includes a reception (electric field) intensity of a pilot signal of a base station existing in the predetermined area measured by the mobile radio communication terminal (for example, during a 1PN period). Of the pilot energy (EC) stored over the total power spectral density (IO) in the receiving band, ie EC / I
O) is input, an adding means for adding a predetermined value to the reception intensity, a judging means for judging whether or not the addition result exceeds a predetermined value, and a communication based on the result of the judging means. Selecting means for selecting a candidate for a base station to be used. According to the above configuration, for a base station existing around the traveling direction of the mobile radio terminal, a predetermined value is added to the reception strength of the pilot signal, and the apparent reception strength is increased. The reception strength is compared with a predetermined value (reception strength for judging whether a good communication can be established between the mobile station and the base station), and based on the comparison result, which base station is set to the active set Is determined as a candidate. As a result, the probability that a base station existing around the traveling direction is registered with the active set in preference to a base station not located around the traveling direction is increased.

In the above-mentioned mobile radio communication management system, the adding means and the judging means are provided in the mobile radio terminal, and the selecting means outputs a result of the judgment means transmitted from the mobile radio terminal. , The mobile radio communication terminal selects a candidate base station to be used for communication. According to the above configuration, the configuration of the mobile radio communication management system can be simplified, and the cost for system construction can be reduced and the processing speed can be increased.

[0013] The present invention also relates to a mobile radio terminal which communicates with a base station and manages the communication by a mobile radio communication management system, wherein the mobile radio communication management system controls the traveling direction of the mobile radio terminal. Is detected, and when the information of the base station existing in the predetermined area in the detected traveling direction is notified, a predetermined value is added to the notified reception strength of the pilot signal transmitted from the base station. It is characterized by comprising an adding means, a detecting means for detecting information of a base station whose addition result exceeds a predetermined value, and a transmitting means for transmitting the detected information of the base station. According to the above configuration, for a base station existing around the traveling direction of the mobile radio terminal, a predetermined value is added to the reception strength of the pilot signal, and the reception strength is apparently increased, and By transmitting the strength to the mobile radio communication management system, it is possible to prioritize base stations existing around the traveling direction of the mobile radio terminal and make it a candidate for an active set. As a result, the probability that a base station existing around the traveling direction is registered in the active set increases, and it is possible to improve the communication quality of the mobile radio terminal.

The present invention also provides a method realized by the mobile radio communication management system.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing a system configuration of a mobile radio communication system according to an embodiment of the present invention. In FIG. 1, reference numeral 1 denotes a mobile wireless terminal such as a mobile phone or a PHS, and here, a case where the mobile terminal is moving in a vehicle or the like is considered. Further, the mobile wireless terminal according to the present embodiment has a position detecting unit such as a GPS. Reference numerals 2a, 2b, 2c... Are base stations. When it is not specified which base station, the base station is simply referred to as base station 2.

Reference numeral 10 denotes a mobile radio communication management system for managing communication performed between the mobile radio terminal 1 and the base station 2. The transmission / reception unit 11 for transmitting / receiving information and the information of the base station 2 under management are transmitted. It comprises a storage device 12 stored therein and a control unit 13 for processing a base station used for communication and a candidate for a base station, respectively, according to the movement state of a mobile radio terminal used for communication.

The storage device 12 stores, for each mobile radio terminal, an active set, a candy date set, a neighbor set, and a re-maining set (“CDMA portable mobile phone system standard” of the Radio Industry Association).
ARIB STD-T53 1.1 version) is stored. Further, the control unit 13 performs various processes based on the base station information and the mobile wireless terminal information stored in the storage device 12. For example, traveling direction detecting means for detecting the traveling direction of the mobile radio terminal 1 based on the position information of the mobile radio terminal 1, and a predetermined one of the base stations currently registered in the candidate list in the traveling direction of the mobile radio terminal 1. Base station extracting means for extracting a base station existing in an area, means for outputting information of a base station registered in a candidate list to a transmitting / receiving unit so as to recognize whether or not the base station exists in a predetermined area. Also works as

Hereinafter, the operation of the mobile radio communication system according to one embodiment of the present invention will be described with reference to FIG.
Note that the process illustrated in FIG. 2 is a process that is repeatedly performed at predetermined intervals. First, in step SP1, the mobile wireless terminal 1 acquires position information using a GPS device, and transmits the acquired position information. In step SP2, when the control unit 13 of the mobile radio communication system 10 acquires the location information transmitted from the mobile wireless terminal 1 via the base station currently registered in the active set, the acquired location information and the previously acquired location information The moving speed and traveling direction of the mobile radio terminal are calculated based on the position information. Subsequently, the control unit 13 determines whether or not the moving speed calculated in step SP3 exceeds a predetermined value. As a result, if the moving speed is within the predetermined value, the process proceeds to step SP4,
The information of the base station currently registered in the neighbor set is transmitted to the mobile radio terminal 1 via the base station currently registered in the active set, and thereafter, the predetermined processing is performed based on the communication method conventionally performed. I do.

On the other hand, if the moving speed calculated in step SP3 exceeds the predetermined value, it is determined that the vehicle is moving at a high speed, and the process proceeds to step SP4, in which the base station currently registered in the neighbor set is selected. Extracting a base station existing around the traveling direction of the mobile wireless terminal calculated in step SP1, specifically, in a predetermined fan-shaped area (horizontal direction) extending in the traveling direction around the current position of the mobile wireless terminal. I do. In addition, the inside of the predetermined fan-shaped area is, for example, as shown in FIG.
As shown in the figure, the area of the angle 2α spreads symmetrically from the mobile radio terminal with respect to the traveling direction.

Then, in step SP6, the control unit 13 notifies the mobile radio terminal 1 of the neighbor set.
At this time, the information of the base station extracted in step SP5 is added to, for example, a pilot offset to inform the fact to that effect, and is notified to the mobile radio terminal. Thereby, the mobile radio terminal 1 can clearly recognize, from the received base station information of the neighbor set, a base station existing in the vicinity of the traveling direction and a base station which is not. This information is held and used in the mobile wireless terminal 1 until the neighbor set is updated.

Subsequently, in step SP7, the mobile radio terminal 1 measures the reception strength (for example, EC / IO) of the pilot signal from the base station included in the neighbor set, and then, in step SP8, in step SP6 A predetermined value is added to the reception strength of the pilot signal from the base station notified that the pilot signal exists in the vicinity of the traveling direction, and the reception strength is increased apparently.

Subsequently, in step SP9, the reception strength measurement result of the pilot signal in step SP7 (a predetermined value, increased reception strength in step SP8 for the base station notified in the vicinity of the traveling direction) It is determined whether there is a pilot signal received with a strength exceeding a threshold value (reception strength for determining whether good communication can be established between the mobile station and the base station). As a result, when there is a pilot signal exceeding a predetermined threshold value, in step SP10, the pilot offset is added to the candy date set held in the mobile station, and in subsequent step SP11,
The mobile radio terminal 1 performs step SP7 and step SP8.
(A pilot signal from the base station notified to be located around the traveling direction of the mobile station, a value obtained by increasing the reception strength measurement result by a predetermined value) and a candy date set Is transmitted to the mobile radio communication management system 10.

Subsequently, in step SP12, the control unit 13 of the mobile radio communication management system 10 determines that the base station added to the candy date set transmitted from the mobile radio terminal 1 (that is, the reception strength exceeds the threshold value). Base station), and based on the reception strength measurement result of this base station, the pilot offset of this base station is used as an active set candidate, and the pilot offset of this base station is used as the active set. It is determined whether to register, that is, whether to set a communication channel with the mobile radio terminal in the base station to which the pilot offset is assigned.

As described above, the reception strength of the pilot signal from the base station notified of being located in the vicinity of the traveling direction of the mobile station is increased by a predetermined value, and the base station side (including the base station and the mobile radio communication management system) is increased. ), And base stations near the traveling direction of the mobile radio terminal, that is, base stations considered to be important for ensuring good and stable communication quality, are likely to become active set candidates. As a result, it is possible to reduce the probability that base stations near the traveling direction of the mobile station will be delayed from being added to the active set or will not be added to the active set, and will be good and stable when the mobile radio terminal moves at high speed. Contribute to secure calls.

In step SP8, even after the pilot signal of the base station located in the traveling direction of the mobile station is added to the candy date set, the pilot signal of the base station is added to the active set at the base station side.
Or, when the base station side updates the neighbor set and notifies that the base station is not located in the vicinity of the mobile station traveling direction, when measuring the reception strength of the pilot signal of the candy date set Performs a process of increasing the reception strength measurement result by a predetermined value.

The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes a design and the like without departing from the gist of the present invention. It is.

For example, in the above-described embodiment, the case has been described where the processing from step SP8 to step SP10 shown in FIG. 2 is performed by the mobile radio terminal, but this processing may be performed by the mobile radio communication management system. Good.
In this case, the mobile radio communication management system notifies the mobile radio terminal of the base station information of the neighbor set and obtains the pilot signal reception strength of the base station corresponding to this base station from the mobile radio terminal. Among the received intensities, a predetermined value is added to the received intensity corresponding to the base station present in a predetermined area in the traveling direction of the mobile radio terminal,
These results are compared to a threshold. Then, if there is a reception intensity exceeding the threshold, the base station information stored in the storage device 12 is updated. That is, the process of shifting the information of the base station from the neighbor set to the candy date set is performed, and further, it is determined whether to add this base station to the active set.

Further, in the above embodiment, the case where the mobile radio terminal has the position detecting means such as the GPS has been described. However, the position detection of the mobile radio terminal may be performed by the following method. It is possible. a. If the GPS device is mounted on the vehicle,
Using the device, the mobile wireless terminal may receive position information from a GPS device mounted on the vehicle via a hands-free device or the like. b. The traveling direction and moving speed of the mobile radio terminal are calculated from changes in the position information by a GPS device mounted on the vehicle and sent to the mobile radio terminal via a hands-free device or the GPS device mounted on the mobile radio terminal. The traveling direction and the moving speed of the mobile radio terminal may be calculated from the change in the position information received from the device, and these information may be reported from the mobile radio terminal to the base station together with the position information. c. The traveling direction and moving speed of the mobile wireless terminal are detected by the speed sensor and direction sensor mounted on the vehicle, and sent to the mobile wireless terminal via a hands-free device or the like, and the GPS device mounted on the vehicle or the GPS device included in the mobile wireless terminal body. The mobile radio terminal may report to the base station together with the position information detected in. d.The mobile radio communication management system may calculate based on delay information of transmission waves between the mobile station and the base station registered in the active set, handover information, reception strength fluctuation information of the pilot signal, and the like. .

As described above, by acquiring position information using the on-vehicle GPS device, the speed sensor, and the direction sensor, even if the mobile radio terminal itself does not have the GPS device (function), the present invention can be implemented. Can be realized. Further, since the information of the speed sensor and the direction sensor can be diverted as it is, the mobile radio communication management system does not need to calculate the speed and traveling direction of the mobile radio terminal every time, and the processing of the mobile radio communication management system can be reduced. Thus, the circuit can be simplified and the cost can be reduced.

[0030]

As described above, according to the mobile radio communication management system of the present invention, the traveling direction of the mobile radio terminal can be changed based on the position information of the mobile radio terminal or the mobile radio terminal transmitted from the base station. Detect and extract the base stations present in a predetermined fan-shaped area extending in the traveling direction around the position of the mobile radio terminal from the base station information currently registered in the neighbor set, and are registered in the current neighbor set. When transmitting the base station information to the mobile radio terminal, which base station is present around the traveling direction among the base stations, the base station located in the traveling direction of the mobile radio terminal is Can be preferentially handled as a base station to be used for mobile terminals, by quickly detecting a base station located in the traveling direction of a mobile radio terminal, and listing that base station as a candidate for the next communication. An effect that it is possible to improve the communication quality at the time of high-speed movement.

According to the present invention, a predetermined value is added to the reception strength of a pilot signal for a base station existing in the vicinity of the traveling direction of the mobile radio terminal, so that the reception strength is apparently increased. Then, based on these reception intensities, it is determined which base station is to be a candidate for the active set. As a result, the probability that a base station existing around the traveling direction is registered with the active set in preference to a base station not located around the traveling direction is increased. As a result, the communication quality of the mobile radio terminal can be improved, and an effect that a comfortable communication environment can be provided to the user is achieved.

Further, according to the present invention, for a base station present in the vicinity of the traveling direction of the mobile radio terminal, a predetermined value is added to the reception intensity of the pilot signal, thereby apparently increasing the reception intensity. Either the mobile wireless terminal or the mobile wireless communication management system can perform the process of strengthening, and it is possible to switch the equipment to be installed as necessary, and it is possible to respond flexibly according to the usage environment Becomes

[Brief description of the drawings]

FIG. 1 is a system configuration diagram of a mobile radio communication management system according to an embodiment of the present invention.

FIG. 2 is a flowchart showing operations of the mobile radio communication management system and the mobile radio terminal according to the embodiment.

[Explanation of symbols]

1. Mobile radio terminal, 2 (2a, 2b, 2c, 2d ...)
Base station, 3 ... vehicle, 10 ... mobile radio communication management system,
11: transmission / reception unit, 12: storage device, 13: control unit

Claims (6)

[Claims] 1. A mobile radio communication management system for managing communication between a mobile radio terminal and a base station, comprising: a traveling direction detection means for detecting a traveling direction of the mobile radio terminal based on position information of the mobile radio terminal. And base station extracting means for extracting a base station existing in a predetermined area in the traveling direction of the mobile radio terminal from among base stations currently registered in the candidate list; and a base station existing in the predetermined area. Transmitting means for transmitting information on base stations registered in the candidate list so as to be able to recognize whether or not the station is a mobile station. 2. An input means for receiving a reception strength of a pilot signal of a base station existing in the predetermined area measured by the mobile radio communication terminal, and adding a predetermined value to the reception strength. 2. The apparatus according to claim 1, further comprising: a determination unit configured to determine whether a result exceeds a predetermined value; and a selection unit configured to select a candidate of a base station used for communication based on a result of the determination unit. 3. The mobile radio communication management system according to 1. 3. The mobile radio communication management system according to claim 2, wherein said adding means and said judging means are provided in said mobile radio terminal, and said selection means is said judgment transmitted from said mobile radio terminal. A mobile radio communication management system, wherein the mobile radio communication terminal selects a base station candidate used for communication based on a result of the means. 4. A mobile radio terminal that communicates with a base station and manages the communication by a mobile radio communication management system, wherein the mobile radio communication management system detects a traveling direction of the mobile radio terminal, When information of a base station existing in a predetermined area in the detected traveling direction is notified, an adding unit that adds a predetermined value to the notified reception strength of the pilot signal transmitted from the base station, A mobile radio terminal, comprising: detecting means for detecting information on a base station whose addition result exceeds a predetermined value; and transmitting means for transmitting information on the detected base station. 5. A mobile radio communication management system for managing communication performed between a mobile radio terminal and a base station, comprising: detecting a traveling direction of the mobile radio terminal based on position information of the mobile radio terminal; Extracting a base station existing in a predetermined area in the traveling direction of the mobile radio terminal from among the base stations registered in the candidate list; and recognizing whether or not the base station exists in the predetermined area. Transmitting the information of the base station registered in the candidate list so as to be able to perform the mobile radio communication management method. 6. A step of adding a predetermined value to the reception intensity of the mobile radio terminal with respect to a base station existing in the predetermined area, and a step of determining whether or not the result of the addition exceeds a predetermined value. The method according to claim 5, further comprising the step of: selecting a candidate base station to be used for communication based on a result of the determination means.