JP2910826B2 - Method of selecting control channel in mobile station - Google Patents

Abstract

PURPOSE: To reduce the frequency in wait permission/inhibition discrimination for each candidate of a control channel at the time or selecting the control channel by a mobile station. CONSTITUTION: The reception level of each control channel is measured, and the result is stored in a table TB1. Reception levels higher than a prescribed value in this table TB1 are selected and are transposed in the order of levels to generate a candidate table TB2 where pairs of control channels and their reception levels are arranged in the order of levels. Two arbitrary control channels whose frequency intervals are shorter than the channel frequency interval of the system are. selected from control channels in the candidate table TB2, and one control channel having the lower reception level is selected, and the reception level of this control channel in the table TB2 is forcibly set to the prescribed value or lower. Control channels in the table TB2 are transposed in the order of reception levels to generate a candidate table TB3, and a control channel is selected based on this table.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for selecting a control channel for a mobile station in a two-way mobile communication system, such as a mobile phone or a mobile phone, for standby.

[0002]

2. Description of the Related Art In mobile communication, a plurality of predetermined frequencies are prepared as control channels for receiving control signals related to incoming call control. In such a mobile communication system, the mobile station selects an appropriate control channel from these control channels at power-on and when shifting from the service area of one base station to the service area of another base station. And a control signal related to the incoming call control,
Wait for reception via this selected control channel.

Conventionally, a control channel group (1, 2,..., N, n + 1,... N) set in advance in a mobile station has a channel whose reception level is equal to or higher than a predetermined level defined by the system. Is selected as a candidate, and the standby availability determination is started in the order of higher reception level among these candidate channels. That is, first, an attempt is made to receive a control signal using the control channel having the highest reception level. Here, if the control signal can be normally received, and as a result of analyzing the content of the received control signal, it can be considered that the standby is possible, the standby is performed on the control channel. In addition, when the control signal cannot be normally received by using the control channel, or even if the control signal can be normally received, as a result of analyzing the content of the control signal, the control channel is used. If it is determined that the reception cannot be performed, the control channel is switched to the control channel having the next highest reception level (the next candidate), and the determination as to whether or not the mobile station can be standby is similarly performed.

[0004] The determination as to whether or not to wait is performed until a control channel capable of waiting is detected from among the control channel candidates. If it is determined that all the control channel candidates cannot be on standby, the reception levels of all the control channels are detected again, and the control channel candidates are obtained again.

[0005]

In a control channel group preset in a mobile station, two control channels having a relationship that each frequency is smaller than a system channel interval (for example, an interleaved channel) are included. Channels generally exist. If such two control channels are, for example, CH-a (CH is an abbreviation of channel; the same applies hereinafter) and CH-b, temporarily in a certain zone, CH-a
If the reception level of the other channel is equal to or higher than the specified value, the other CH
Also for -b, the reception level may be higher than the specified value. This is because the frequency band of CH-b is included in the occupied frequency band of CH-a.

Then, such a control channel CH-a
Suppose that both CH-b and CH-b are candidate control channels, and that the mobile station selects, for example, CH-a as a control channel for standby. In this case, if the mobile station is temporarily unable to receive control signals after entering a building or tunnel, etc., or it is possible to receive control signals, but the base station is under construction due to restrictions. Is set, and the control channel cannot be used, a similar determination as to whether or not to wait for CH-b may be made in order to select a control channel instead of CH-a. Here, the reception level of CH-b is CH-b.
This is due to the power of a, and the standby is always disabled even if the standby availability determination is performed.

[0007] As described above, the mobile station has to judge whether or not the mobile station can stand by for CH-b, and it takes a long time to detect a control channel capable of waiting. Also, when the mobile station is a portable mobile device or the like, battery consumption is expedited.

The present invention has been made in view of the circumstances described above, and when a mobile station detects a control channel for standby, an abnormal control channel is predicted, and unnecessary determination of whether or not to wait is not performed. Thus, it is an object of the present invention to increase the speed of standby and to reduce battery consumption in a portable mobile device.

[0009]

SUMMARY OF THE INVENTION The present invention relates to a method for a mobile station of a mobile communication system for performing two-way communication by radio to select a control channel for standby from among control channels to be selected. If the interval between the frequencies of any two control channels is less than the channel frequency interval of the system and the reception levels of these control channels are equal to or higher than a predetermined value, only the control channel having the higher reception level is awaited. A method of selecting a control channel in a mobile station is characterized in that the control channel for the mobile station is selected from the control channels for which the reception level is lower, and the control channel with the lower reception level is excluded from the selection targets for standby.

[0010]

According to the above-mentioned invention, the control channel which is determined to be incapable of standby in the determination of whether to be ready for standby is removed from the selection targets in advance, so that the control channel can be quickly selected.

[0011]

An embodiment of the present invention will be described below with reference to the drawings. The present embodiment is characterized in that when a control channel for standby is selected, an abnormality of the control channel is predicted from the frequency information of the control channel and its reception level. Further, the control channel determined to be abnormal based on the prediction is not set as a candidate for a standby control channel, and the control channel is not determined to be ready for standby. The specific processing flow is shown in FIGS.

A. (A) First, the mobile station refers to the frequency information of all the control channels stored in advance in the mobile station in order to perform standby, and determines the reception level of these control channels. Is measured. Then, each reception level in each control channel obtained as a result of this measurement is stored in the table TB1.

(B) Next, referring to each reception level stored in the table TB1, it is determined whether or not there is a control channel having a reception level equal to or higher than a specified value. If there is no control channel whose reception level is equal to or higher than the specified value, the measurement of the reception levels of all control channels is started again.

(C) If it is determined in step (b) that at least one of the control channels has a reception level higher than a specified value, the specified reception level of each control channel stored in the table TB1 is used. Read the reception level above the value. Then, using the strength order of these reception levels as a key, the control channels whose reception levels are equal to or higher than a specified value are rearranged. Then, the column of each combination of the control channel and the reception level thus obtained is stored in the candidate table TB2.

(D) Based on the candidate table TB2 created in this way, the relationship between the frequency of the control channel in order from the control channel with the higher reception level (ie, in order from the head control channel in the candidate table TB2) To investigate the. Here, when the frequencies of the two control channels to be compared are equal to or less than the channel frequency interval, the channel having the lower reception level is predicted to be an abnormal control channel, and is deleted from the control channel candidates. The details of this deletion process are as follows.

(1) First, the m-th storage area TB2 (m) in the candidate table TB2 is referred to, and this area TB
The control channel frequency Fm stored in 2 (m) is used as a reference. Next, for each x in the range x = m + 1 to M,
X-th storage area TB2 in candidate table TB2
With reference to (x), the frequency Fx of the control channel stored in this area TB2 (x) is compared with the frequency Fm.

(2) Then, in this comparison, the following prediction processing is performed. (D-1) When the frequency Fx is within Fm ± Δ (Δ is a channel frequency interval), the control channel reception level in the storage area TB (m) of the candidate table TB2 and the reception level in the storage area TB (x) Is compared with the reception level of the control channel. Then, the control channel having the lower reception level is predicted to be an abnormal control channel, and this control channel is excluded from the candidate table TB2.

(D-2) In the process of excluding the control channel from the candidate table TB2, the reception level corresponding to the control channel in the candidate table TB2 is forcibly set to a value less than a specified value (for example, 0). Performed by
This prediction process is performed for m = 1 to M.

(3) In the prediction processing (d-1) and (d-2), the control channel in the table TB1 is 2
This is performed only when the number of channels is equal to or more than one (when the number of control channels in the table TB1 is one (M = 1), there is no control channel to be compared).

(E) For all the control channels in the candidate table TB2, when the investigation of the frequency relationship between the control channels and the prediction of the abnormal control channel are completed, the control channels in the candidate table TB2 are again Rearrange using the reception level as a key, and sort the result into the candidate table T
Store it in B3. As a result, it is predicted to be abnormal,
Control channels whose reception levels are forcibly set to less than the specified value in the candidate table TB2 are excluded from the candidates for the standby control channel.

(F) Next, for each control channel in the candidate table TB3, a determination is made as to whether or not it is possible to wait in order from the higher one. (G) If it is determined that the standby is possible, the mobile station waits on the control channel. If it is determined that the standby is impossible, the standby permission determination is similarly performed on the next candidate control channel. If it is determined that standby is not possible for all control channels in the candidate table TB3, the process returns to step (a), and the reception levels of all control channels are detected again.

B. Operation and effect of the present embodiment According to the present embodiment, when the mobile station selects a control channel for performing standby, the number of times of determining whether or not to enable standby is reduced, and the time until the start of standby is reduced. Is obtained. In addition, by reducing the number of times of determining whether or not the mobile phone can be placed on standby, the portable device or the like has the effect of reducing battery consumption. Hereinafter, the operation of the above embodiment will be described with reference to specific examples to clarify how the above effects can be obtained.

(1) Conditions The operation example described here is based on the following conditions. (A) The control channels allocated to the mobile station in advance are 20 control channels CH (1) to CH (20). (B) In addition, the frequencies of each of these 20 channels are all below the channel frequency interval as described below. The frequency of CH (2) is the frequency of CH (1) + δ. The frequency of CH (3) is the frequency of CH (2) + δ. The frequency of CH (4) is the frequency of CH (3) + δ. The frequency of CH (20) is the frequency of CH (19) + δ, where δ is a value within the channel frequency interval (Δ) determined by the system. (C) The prescribed value of the reception level that permits waiting is 10 (unit is omitted).

(2) Operation of Mobile Station <Step 1> (a) First, the mobile station measures the reception level of 20 channels CH (1) to CH (20) which are control channels assigned in advance. , Measurement results in table TB
1 is stored. FIG. 4A illustrates the contents of the table TB1 in which the reception levels are stored as described above.

(B) Among the reception levels in the table TB1, a reception level equal to or more than a specified value (10) is obtained. Then, for the control channels corresponding to these respective reception levels, an operation of rearranging them in the order of the intensity of the reception levels is performed,
The result is stored in the candidate table TB2. FIG. 4 (b)
Represents the contents of the candidate table TB2 thus obtained.

Now, in the conventional mobile station, it is determined whether or not the mobile station can stand by in order from the upper CH in the candidate table TB2 (FIG. 4B) at this time.
At this point, the next step is performed without making a determination as to whether or not the apparatus is ready for standby.

<Step 2> (a) First, the control channel CH (5) stored in the first storage area in the candidate table TB2 is taken out, and the channel interval ( The control channel of the frequency within Δ) is the candidate table T
A search is made to see if it exists in B2.

In the case of this example, 2 in the candidate table TB2
The control channel CH (6) corresponds to this. Therefore, the reception level of CH (6) is forcibly set to the specified value (10).
Is set to less than (here, it is set to 0).

(B) Next, the same operation is performed for the second control channel CH (6) in the candidate table TB2. In this example, the eighth control channel CH (7) in the candidate table TB2 is within the band of the control channel CH (6).
The reception levels are as follows. CH (6) → 0 (Forcibly set to 0 in step 2 (a) above) CH (7) → 17

Here, since the reception level of the control channel CH (6) is lower than the reception level of the control channel CH (7), the control channel CH (6) is to be deleted. Note that the level of CH (6) has already been forcibly set to 0, and the level is not changed by this determination.

(C) Third, fourth in the candidate table TB2
The same level setting process as described above is performed for the 11th to 11th channels.

(D) The final result of this processing is as shown in FIG. 4 (c).

<Step 3> (a) Next, for the candidate table TB2 (FIG. 4C) in which the reception level of the abnormal control channel is forcibly set to 0, rearrangement is again performed using the reception level as a key. Do
A candidate table TB3 is created. (B) As a result, the candidate table TB3 becomes as shown in FIG. 4D, and it can be seen from the candidate table TB2 that the control channel CH (6) having the second highest priority has been deleted.

<Step 4> A standby availability determination is started in order from the upper control channel of the candidate table TB3.

(3) Description of Effect (a) It is assumed that a control channel is selected by the conventional technique under the above conditions. In this case,
If the reception of the control signal of CH (5) temporarily fails in a tunnel or the like, or the control signal can be received normally,
When the use of H (5) is prohibited due to the network side, the control is switched to the next candidate control CH to determine whether or not standby is possible. Here, the next candidate CH (6) is
CH in the occupied frequency band of CH (5),
The reception level (6) is detected by the transmission of CH (5) from the base station. Therefore, even if it is determined whether or not to be in standby, it is always impossible. Further, the next candidate CH (1
When switching to 4) and determining whether or not to wait, C
If it is possible to stand by at H (14), it stands by at the CH. Thus, in the conventional technology,
After the third standby determination, the mobile station waits on the CH (14).

(B) On the other hand, according to the present embodiment, when the reception of the control signal of the CH (5) temporarily fails due to a building shadow, a tunnel, or the like, or the control signal can be normally received. If the use of the CH (5) is prohibited due to the network side, the CH (14) is selected and the terminal waits on the CH. As described above, according to the present embodiment, the final control channel C
H (14) waits.

(C) As described above, in the present embodiment, the abnormal control channel is predicted and excluded from the candidate channels, so that the number of times of waiting permission / non-permission judgment is deleted. Is shortened.

[0038]

As described above, according to the present invention, when a mobile station selects a control channel, the number of times of deciding whether to perform standby for each candidate of the control channel is reduced, and the mobile station is compared with the prior art. The effect that the time until can be shortened is obtained.

[Brief description of the drawings]

FIG. 1 is a flowchart illustrating a control channel selection method according to an embodiment of the present invention.

FIG. 2 is a flowchart illustrating a control channel selection method according to an embodiment of the present invention.

FIG. 3 is a flowchart illustrating a control channel selection method according to an embodiment of the present invention;

FIG. 4 is a diagram illustrating the operation of the embodiment.

──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Shinhide Sawayanagi 2-10-1 Toranomon, Minato-ku, Tokyo Inside NTT Mobile Communication Network Co., Ltd. (72) Inventor Ya ▲ saki ▼ Hidetoshi Tokyo 2-10-1, Toranomon, Minato-ku, NTT Mobile Communication Network Co., Ltd. (56) References JP-A-2-200025 (JP, A) JP-A-5-304496 (JP, A) (58 ) Surveyed field (Int.Cl. ⁶ , DB name) H04B 7/24-7/26 H04Q 7/00-7/38

Claims (1)

(57) [Claims] 1. A method for a mobile station of a mobile communication system performing two-way communication by radio to select a control channel for standby from among control channels to be selected, comprising the steps of: When the interval between the frequencies is less than the channel frequency interval of the system and the reception levels of these control channels are equal to or higher than a predetermined value, only control channels having a high reception level are selected as control channels for standby. A method of selecting a control channel in a mobile station, wherein a control channel having a lower reception level is excluded from selection targets for standby.