JP3002643B2 - Apparatus and method for collecting handover history in PHS - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a handover history collection apparatus and method for collecting a success / failure history of handover of a handset (PS) in a PHS (Personal Handyphone System). .

[0002]

2. Description of the Related Art A PHS is compared with a mobile phone system.
One base station (CS) because the radio wave transmission level is low
The communication area or microcell zone that can be covered by the is very small, having a radius of only about 300 m. Therefore, in order to obtain a continuous large communication area on the field, it is necessary to install many base stations. In addition, since a dead zone may be generated by an obstacle such as a building, the microcell zone does not have a uniform radius, and therefore, a base station must be installed so as not to generate a dead zone. Furthermore, four channels are usually allocated to one base station CS.
In an area where the HS terminal is frequently used, it is necessary to install more base stations than in an area where the frequency of use is low, in order to increase the number of channels that can communicate as a whole.

As described above, it is necessary to consider adding a base station to an appropriate position. Therefore, it is necessary to grasp the state of the PHS service area. In the meantime, an electric field intensity measuring and collecting system combining a received electric field intensity measuring device, a computer and a display device has already been proposed.
Patent application No. 8938. According to this system, it is possible to efficiently measure and collect the electric field strength of a radio wave from a base station that can be received at an arbitrary measurement point, and to process the collected electric field strength measurement data to display the color. , The service area can be easily grasped visually.

[0004]

In the above-mentioned electric field intensity measurement and collection system, the electric field intensity of radio waves from all base stations that can be received at the measurement points is measured, and the electric field intensity is displayed in association with each of the base stations. So we can do it,
Although it is extremely useful in grasping the service area of the PHS, it cannot be grasped whether or not the service area is sufficient to secure the handover function of the slave unit. Note that the handover function is a function for automatically switching to a radio wave of another base station and continuing communication when radio waves of the base station CS during communication cannot be received by the slave unit PS. In other words, in order to continue the call while the slave unit moves, it is necessary to sequentially switch the connecting base station according to the radio wave condition by the handover function, but if the slave unit enters the dead zone, the handover may occur. The call is disconnected without being able to do so. Even in the case where the PHS is not frequently used, even in a region where PHS is frequently used, the call channel may be completely blocked and handover may not be performed.

As described above, a call may be interrupted due to a handover failure. In order to prevent this, it is necessary to consider a service area from the viewpoint of a handover function and to consider adding a base station or the like. There is. Therefore, a first object of the present invention is to enable collection of a history of whether handover of a slave unit has succeeded at each measurement point in order to grasp a service area in a PHS. Further, when the handset is in a call and when the handover is successful, it is possible to confirm with which base station the connection has been established, and when the call is interrupted such as a handover failure. If the cause can be confirmed, the service area can be grasped in more detail based on the cause. Therefore,
A second object of the present invention is to enable a slave unit to confirm a base station connected during a call and to identify a cause of a call interruption.

[0006]

In order to achieve the first object, according to the present invention, there is provided a handover for measuring a handover situation of a handset and collecting a history of the handover used together with the handset. In the history collection device, a storage unit, a display unit, a reception demodulation unit that receives a signal within a predetermined carrier frequency transmitted from the base station, and demodulates and outputs the signal, and an output from the reception demodulation unit. Each time a link channel assignment message and a link channel assignment rejection message transmitted from the base station are received from the base station in response to the link channel establishment request message from the slave unit, the demodulated data is included in the link channel assignment message. Base station identification code (C
S-ID) as a handover destination base station identification code, and a base station identification code (CS-I) representing a source base station included in the link channel assignment rejection message.
D) is extracted as a handover rejection base station identification code, and the extracted handover destination base station identification code and handover rejection base station identification code are stored in the storage means in association with a measurement time point or a measurement point. And control means for controlling display on the display means.

In order to achieve the first object,
In the handover history collection method of the present invention for measuring the handover situation of the slave unit and collecting the history, a signal within a predetermined carrier frequency transmitted from the base station is received, and Receiving demodulation for demodulating and outputting as demodulated data; transmitting a link channel establishment request message from the slave; transmitting from the base station from the demodulated data in response to a link channel establishment request message from the slave. Each time a received link channel assignment message and a link channel assignment reject message are received, a base station identification code (CS) indicating a source base station included in the link channel assignment message is received.
-ID) as a handover destination base station identification code,
Also, a base station identification code (CS-ID) representing the source base station included in the link channel assignment reject message
Is extracted as a handover rejection base station identification code, and the extracted handover destination base station identification code and handover rejection base station identification code are stored in storage means in association with a measurement time point or a measurement point. And a storage display step for displaying on the display means.

In order to achieve the second object, the handover history collecting apparatus according to the present invention, wherein the control means further comprises a rejection reason code (NG) indicating a rejection reason contained in the link channel assignment rejection message. Is extracted and stored together with the handover rejection base station identification code in the storage means and displayed on the display means. In order to achieve the second object, in the handover history collection method of the present invention, the extracting step further includes extracting a rejection reason code (NG) indicating a rejection reason included in the link channel assignment rejection message. And storing and displaying the rejection reason code together with the handover rejection base station identification code in the storage means and displaying the same on the display means.

In a preferred embodiment of the present invention, a handover destination communication station number code (N) and a communication slot number code (SR) included in the link channel assignment message are extracted to identify the handover destination base station. A link channel assignment message and a link channel assignment rejection message generated in response to a link channel establishment request message from the slave unit. In order to perform this, a link channel assignment message and a link channel assignment rejection message transmitted from the base station in the link channel establishment phase are selected from the demodulated data from the reception demodulation means. Use the identification code as the arrival identification code By selecting a message that contains, and is configured to identify.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The handover history collecting apparatus of the present invention is used together with a slave unit which can be actually used in a PHS, and its block diagram is shown in FIG. As shown in FIG. 1, the handover history collection device stores an antenna 1, a tuner unit 2, a demodulation unit 3, an input key (KEY) 4, and a program for executing data measurement and collection. Read-only memory (R
OM) 5, random access memory (RAM) 6,
It comprises a display unit (LCD) 7 composed of a liquid crystal display or the like, and a microprocessor (CPU) 8 for controlling the operation of the entire apparatus. The tuner unit 2 detects the CP arriving from the signal arriving at the antenna 1.
30 with the frequency f specified by U8 as the center frequency
The signal within the bandwidth of 0 KHz is supplied to the demodulation unit 3. The demodulation unit 3 includes a π / 4 shift QPSK demodulation modem (MODEM) 31 and a demodulation logic circuit 32, demodulates a signal supplied from the tuner unit 2, and supplies the demodulated signal to the CPU 8. CPU8
Is a base station identification code CS-ID from demodulated data directed to a predetermined slave unit PS in the supplied demodulated data.
The communication slot number code SR, the communication carrier number code N, and the rejection reason code NG are taken out and stored in the RAM 6, and their values are displayed on the LCD 7.

Before describing in detail the operation of collecting the history of handover using the above-described apparatus, a brief description will be given of matters relating to the PHS and its data format relating to the present invention. In PHS, 1.9 GHz
The carrier frequency of the band is used, and the carrier frequency interval is set to 300 KHz. Specifically, 1895.15 MHz (carrier number 1) to 191
A carrier frequency of 7.95 MHz (carrier number 77) is used. In addition, these carrier numbers 1 to 77
Are assigned to the respective carriers as control carrier numbers, and carrier numbers 12, 18, 73, 75, and 77 are currently used as control carriers. Others are call carrier numbers indicating carrier frequencies for calls. Then, the P of the operator to which one control carrier number is designated as described above.
In the HS, a base station identification code CS-ID is assigned to each of a plurality of base stations CS. Each base station using a common control carrier frequency outputs, for example, a signal including a CS-ID code intermittently at a constant period T, and each base station outputs a signal in a time-division manner. Is sent.

[0012] In order to perform a call, in the link channel establishment phase, when the mobile station PS makes a link channel establishment request to the base station CS, the base station CS issues a request to the mobile station PS.
When the channel setting is possible, a link channel assignment message having the message format shown in FIG. 2A is transmitted, whereby the communication channel is assigned and the communication is enabled. Further, when the channel cannot be set, the base station CS transmits a link channel assignment rejection message having the message format shown in FIG. In FIG. 2, the preamble portion is omitted. Such a link channel assignment message and a link channel assignment rejection message are transmitted to the base station (currently) even when a reception level is deteriorated during communication and a handover is required and a link channel establishment request is issued again. (Other than the communicating base station).

[0013] The link channel assignment message and the link channel assignment rejection message from the base station include a 32-bit unique word UW at the beginning of the message format, and are transmitted from the base station by the unique word UW. The signal is identified as a signal (downstream signal). It also includes a source identification code indicating a source base station, that is, a base station identification code CS-ID, and a destination identification code indicating a destination slave, that is, a slave identification code PS-ID. In addition, these messages
The format includes the information part I (SCC
H) includes a message type represented by 7 bits, and the message type is “00” in the link channel assignment message as shown in FIG.
00001, and in the link channel assignment rejection message, as shown in FIG.
00010 ". By this message type,
A link channel assignment message and a link channel assignment reject message are identified.

Further, the information part I (SCCH) of the link channel assignment message includes
As shown in (A), the allocated communication carrier number code N and the communication slot number code SR are included, and the information part I (SCCH) of the link channel allocation rejection message includes the information shown in FIG. As shown, a rejection reason code NG indicating the reason for assignment rejection
It is included. The rejection reason code NG is represented by 8 bits. For example, the slave unit P that has transmitted the link channel establishment request
The reason for rejection indicates that there is no slot to be assigned to S, and that there is no traffic channel to be assigned to the slave unit PS that has transmitted the link channel establishment request. In the present invention, from a link channel assignment message and a link channel assignment reject message transmitted from the base station CS to a predetermined slave unit PS,
A base station identification code CS-ID, a communication carrier number code N, a communication slot number code SR,
The rejection reason code NG is extracted, and the history of the obtained information is
These values are stored in the AM 6 and displayed on the display unit 7 to confirm the success / failure of handover of the slave unit PS.

Referring to FIG. 3, an operation for collecting the handover history of slave unit PS using the handover history collection device shown in FIG. 1 will be described. In the present invention, the operator carries the handset PS and the handover history collection device while carrying it, and collects the history of the handover caused by the movement. Therefore, the operation of the present invention described below will be described. Indicates that the measurement point is moving over time. In step S ₁ in FIG. 3, when the operator operates the input key 4, the control carrier number CA assigned to each operator (e.g.,
12, 18, 73, 75, or 77)
In step S _2, the CPU 8, Tuner
The unit 2 is controlled to tune to the carrier frequency f corresponding to the control carrier number CA. The control carrier number code CA is stored in the RAM 6 and displayed at a predetermined position on the display unit 7.

[0016] Next, in step S _3, the input key 4
By the operation described above, the identification code PS-ID of the PHS handset PS used in the measurement is set. The slave unit PS
Is a slave to which the set control carrier number CA is assigned, and the slave is identified by a slave identification code PS-ID.
Is displayed. If you look at the display, the identification code P
The S-ID can be input and set. The set slave unit identification code PS-ID is stored in the RAM 6 and displayed at a predetermined position on the display unit 7. In the state of performing the initial setting in step S ₁ to S _3, in step S _4, is turned on in the input key 4, a start key for starting the data collection.
Thereby, in step S _5, the demodulated unit 3
Performs demodulation of a signal supplied via the antenna 1 and the tuner unit 2. At this point,
The tuner unit 2 has a bandwidth 30 centered on the carrier frequency f among the signals arriving at the antenna 1.
The frequency signal of 0 KHz is supplied to the demodulation unit 3, and the demodulation unit 3 demodulates the signal. And does not supply the display unit 7 with demodulated data.

[0017] Then, in step S _6, the handset PS
Is off-hook operation and a link channel establishment request is transmitted, the base station CS responds to the link channel establishment request and transmits the link channel assignment message shown in FIG. Send the indicated link channel assignment reject message. The CPU 8 determines in step S
_{At 7} , it is determined whether or not the demodulated data from the demodulation unit 3 is of the link channel establishment phase and further includes the set slave unit identification code PS-ID as the destination identification code. As mentioned above,
The link channel assignment message and the link channel assignment rejection message transmitted from the base station CS in response to the link channel establishment request from the slave unit PS include the slave unit identification code PS-ID as the destination identification code.

If the set slave unit identification code PS-ID is not included, the process waits until a signal including the code is received. Set slave unit identification code PS-ID
If included, the process proceeds from step S ₇ to step S _8, CPU 8 refers to the block of the message type in the demodulated data, the received message is either a link channel assignment message or link, Identify whether the message is a channel assignment rejection message. Step S ₈
If the determination in is a link channel assignment message, the process proceeds to step S _9, CPU 8, the base station code included in the message (transmission identification code) CS-ID,
The communication channel number code N and the communication slot number code SR are stored in the RAM 6 and displayed at predetermined positions on the display unit 7. Then, the control flow proceeds from step S ₉ to step S _10, when the stop key in the input key 4 determines whether or not an instruction of measurement end is turned on is input, not turned on, step S Go to ₁₁ .

[0019] As described above, the child station PS and handover history collection device is moving the measurement point since the movement, whereby the decrease of the reception level during a call occurs, in step S _11, The slave unit PS automatically transmits the link channel establishment request again. Control flow then returns to step S _7, performs step S ₇ to S ₁₁ again. This operation, in step S _10, until it is determined that the stop key in the input key 4 is turned on, is executed repeatedly. Thereby, every time the handover is successful, the handover destination base station identification code CS-
The ID, the call carrier number code N of the switching destination and the call slot number code SR are stored in the RAM 6 in association with the measurement time or the measurement point, and displayed on the display unit 7.

[0020] In step S _8, if the received message is determined to be a link channel assignment rejection message, the process proceeds to step S _12, the base station identification code CS-ID included in the demodulated data of the message and, The rejection reason code NG is stored in the RAM 6 and displayed on the display unit 7. The base station identification code CS-ID in this case indicates a handover rejection base station identification code, and is stored and displayed together with the rejection reason code NG in association with the measurement time or the measurement point. After step S _12, the process returns to step S _6, the link channel establishment request is transmitted again. Then, the operation of Step S ₆ to S ₁₂ is repeatedly executed. In the operation flow described above, although the stop key has been turned on is determined whether only after the execution of step S _8, determines the state of the stop key at any time, if the on state, the It goes without saying that the measurement collection operation can be stopped at a point in time.

FIG. 4 is an example of a display screen of the display unit 7 displaying the measurement data obtained as described above. In this display example, the control channel number CA is set to 77 (1917.95 MHz), and the second to fourth time points (No. 2 to No. 2) are set.
4) indicates that the base station was switched by the handover function and the call was not interrupted.
However, at the fifth time point (No. 5),
"NG" is displayed, which indicates that the handover was unsuccessful, and indicates that the rejection reason code at that time is "1". The fact that the rejection reason code is “1” indicates that, for example, there is no slot to be allocated to the slave unit PS that has transmitted the link channel establishment request (re-request).

In the above-described display example, the display unit 7 is merely displayed with numerical values. However, if the display screen has room, for example, the reason for refusal may be displayed in words. A map representing the positions of the base stations and the measurement points may be displayed on the display unit 7, and the switching destination call carrier number and the call slot number may be displayed in association with the map. Furthermore, a built-in clock function may be used to measure and display necessary data in association with the measurement time. In addition, it is needless to say that the switching destination call carrier number code N and the call slot number code SR when the handover is successful need not be measured and displayed unless necessary.

[0023]

As described above, the handover history collection apparatus of the present invention generates a link channel establishment request from a slave unit PS that can be actually used in a PHS, and transmits a link channel establishment request from a base station CS in response to the request. Receiving and demodulating the link channel assignment message or the link channel assignment rejection message, thereby obtaining the base station identification code CS-ID of the handover destination, the base station identification code CS-ID at the time of handover failure and the rejection reason code N
G can be measured and collected while moving the apparatus. Therefore, according to the present invention, the history of handover success / failure can be easily collected, and the reason for the handover failure can be collected. It is extremely effective.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a handover history collection device of the present invention.

FIG. 2 is an explanatory diagram showing message formats of a link channel assignment message and a link channel assignment rejection message.

FIG. 3 is a flowchart for measuring and collecting data related to handover using the handover history collection device of the present invention.

FIG. 4 is an example of a display screen when data related to handover is measured and collected and displayed using the handover history collection device of the present invention.

Continuation of the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04B ^7/ 24-7/26 H04Q ⁷ /00-7/38

Claims (8)

(57) [Claims] 1. A handover history collection device used in a personal handyphone system (PHS) together with a handset to measure a handover situation of the handset and collect a history thereof. A storage unit, a display unit, a reception demodulation unit that receives a signal within a predetermined carrier frequency transmitted from the base station, and demodulates and outputs the signal. From demodulated data output from the reception demodulation unit, Each time a link channel assignment message and a link channel assignment reject message transmitted from the base station in response to the link channel establishment request message from the slave unit are received, the source base station included in the link channel assignment message is The base station identification code (CS-ID) to be represented as a handover destination base station identification code and the link A base station identification code (CS-ID) representing the source base station included in the channel assignment rejection message is extracted as a handover rejection base station identification code, and the extracted handover destination base station identification code and handover rejection are extracted. A handover history collection device, comprising: control means for controlling a base station identification code to be stored in the storage means and displayed on the display means in association with a measurement time point or a measurement point. 2. The handover history collecting apparatus according to claim 1, wherein the control unit further extracts a rejection reason code (NG) indicating a rejection reason contained in the link channel assignment rejection message, and performs the handover. A handover history collection device, wherein the handover history collection device is controlled to store the rejection base station identification code in the storage means and display the information on the display means. 3. The handover history collecting apparatus according to claim 2, wherein said control means further comprises: a call carrier number code (N) and a call slot number code (SR) of a handover destination included in said link channel assignment message. A handover history collection device, wherein the control unit extracts the data and stores it in the storage unit together with the handover destination base station identification code and displays it on the display unit. 4. The handover history collection device according to claim 1, wherein the device further comprises a handset identification code (PS-I) of the handset.
D), the control means further controls the child device identification code to be stored in the storage device and displayed on the display device, and is output from the reception demodulation device. From the demodulated data, a link channel assignment message and a link channel assignment rejection message transmitted from the base station in the link channel establishment phase are selected, and based on these selected messages, the input slave unit identification code (PS-ID) ) As a destination identification code, thereby identifying a link channel assignment message and a link channel assignment rejection message generated in response to the link channel establishment request message from the slave unit. Handover history collection system. 5. A personal handyphone system (PHS) for measuring a handover situation of a handset and collecting a history of the handover, wherein a predetermined handover history transmitted from a base station is provided. Receiving a signal within the carrier frequency of, and demodulating it and outputting it as demodulated data; transmitting a link channel establishment request message from the child device; and A base station identification code representing a source base station included in the link channel assignment message each time a link channel assignment message and a link channel assignment rejection message transmitted from the base station in response to the link channel establishment request message are received. (CS-ID) as a handover destination base station identification code; A base station identification code (C) representing the source base station contained in the link channel assignment reject message
(S-ID) as a handover rejection base station identification code, and storing the extracted handover destination base station identification code and handover rejection base station identification code in association with a measurement time point or a measurement point. And storing and displaying the information on a display means. 6. The handover history collection method according to claim 5, wherein the extracting step further comprises a step of extracting a rejection reason code (NG) indicating a rejection reason included in the link channel assignment rejection message, The storing and displaying step includes a step of storing the rejection reason code together with the handover rejection base station identification code in the storage means and displaying the rejection reason code on the display means. 7. The handover history collection method according to claim 6, wherein the extracting step further includes a call carrier number code (N) and a call slot number code (SR) of a handover destination included in the link channel assignment message. And storing and displaying the call carrier number code and the call slot number code together with the handover destination base station identification code in the storage means and displaying them on the display means. A method for collecting handover history. 8. The handover history collection method according to claim 5, further comprising the step of: identifying a slave unit identification code (PS-I) of the slave unit.
D) inputting, storing in the storage means, and displaying on the display means, wherein the extracting step includes: from the demodulated data, a link channel assignment message transmitted from a base station in a link channel establishment phase; A link channel assignment rejection message is selected, and further, from these selected messages, the entered slave unit identification code (PS-ID)
A handover history, comprising selecting a message containing a link identification code as a destination identification code and specifying a link channel assignment message and a link channel assignment rejection message generated in response to a link channel establishment request message from the slave unit. Collection method.