JP3161700B2 - Pseudo base station device in mobile communication system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus used in a mobile radio communication system in which a mobile radio terminal communicates with a radio base station.

[0002]

2. Description of the Related Art A typical system to which the present invention is applied is a cellular mobile system composed of a plurality of base stations. FIG. 9 shows a typical configuration of a cellular mobile system, in which a terminal 11 is connected to a base station 21 via a radio line,
It is connected to a mobile exchange 32 via a wired communication line 31.

[0003] The terminal 11 attempts to start communication (calling).
The general procedure in that case is shown in FIG. The terminal 11 first receives the broadcast channel of the base station. Generally, a broadcast channel of a plurality of base stations 21, 22, and 23 is received. There are various criteria for determining which of the plurality of base stations 21, 22, and 23 to start communication with. For example, when selecting a base station having the highest broadcast channel level, the SIR of the broadcast channel is selected.
This is the case where the base station with the best (signal component to interference component ratio) is selected. After such analysis, a request for radio channel assignment is made to the selected base station. Base station 2
1, 22, or 23 selects an appropriate wireless communication channel and
Inform 1 of the assignment. Thereafter, communication is performed between the terminal 11 and the base station 21, 22, or 23 using the communication channel.

As described above, in this type of mobile communication system, a radio wave is emitted after receiving a broadcast channel of a base station first in various processing sequences, not limited to calling. This is a general measure taken to prevent terminals from inadvertently emitting radio waves. Further, in many digital systems, it is necessary to synchronize with a base station signal in order to emit a radio wave to a base station. For this purpose, first, it is necessary to receive a broadcast channel. Generally, various information is delivered from a base station to a terminal using a broadcast channel. As the broadcast channel information element,
In addition to fixed information such as the identification number of the base station, for example,
"Restricted outgoing call" when a base station is very busy
And time-varying information such as notification. The terminal that has received the broadcast channel analyzes the broadcast information,
When the information is obtained, the transmission request is temporarily suspended.

[0005] In a mobile communication system using a portable terminal,
Communication by the portable terminal is possible from any location as long as the radio waves reach within a predetermined strength or a predetermined quality (hereinafter, coverage). Problems such as the fact that mobile communication with mobile terminals should be prohibited in hospitals from the viewpoint of impact on medical equipment, and that mobile calls with mobile terminals should be refrained in crowded trains. There is. However, in a mobile communication system, while it is possible to "restrict transmission" in the entire coverage of one base station, it is generally not possible to restrict transmission in a specific part of the coverage of the base station.

In the above description, the restriction on outgoing calls has been described as an example. The broadcast channel information includes various cases such as "restriction only for voice calls" and "prohibition of handover". However, the terminal cannot be controlled for a specific part in the coverage of the base station. With respect to the above-described problem of controlling a terminal in a specific part of the coverage, a conventional technique will be described by taking the most typical “transmission restriction” as an example.

[0007]

[Prior Art 1] As one method of restricting transmission in a specific area, there is a radio wave shielding technique. If a radio wave shield is applied to the window glass so that the level of the radio wave of the base station reaching the room becomes lower than the noise level and becomes negligible, transmission from the room cannot be performed. It has the feature that transmission can be reliably regulated if sufficient shielding is applied. The radio shield has an effect over a relatively wide frequency band, and virtually all radio waves in the cutoff frequency band do not reach regardless of the type or type of radio wave. Therefore, this prior art 1
Then, when it is desired to use radio waves adjacent to the frequency of the mobile communication system, or in a specific system in the mobile communication system (for example, analog with high peak power is restricted but CDMA with low power density is not restricted) or specific Cannot selectively satisfy the requirements for selectively restricting the radio waves of the carriers.

[Prior Art 2] As another method of restricting transmission in a specific area, there is a method of emitting jamming radio waves. The method of emitting jamming radio waves is to emit jamming waves in a relatively wide frequency band including the frequency band of the target mobile communication system, and to emit jamming waves in the frequency band including the broadcast channel of the mobile communication system. There is. For the terminal receiving the broadcast channel, the jamming becomes interference noise, so in a place where the jamming is stronger than the required signal-to-noise ratio required by the terminal receiver, the terminal cannot receive the broadcast channel, You will not be able to make calls. In this method, it is necessary to emit a relatively large jamming radio wave in order to hinder reception in terms of energy. In particular, C using spread spectrum technology
In the DMA (Code Division Multiple Access) mobile communication system, since the energy of a signal is spread thinly over a wide frequency range, it is necessary to emit a jamming radio wave having a large energy in order to disturb the energy.

FIG. 11 schematically shows this state. The transmitting side transmits a spread signal 53 spread over a wide band by superimposing a code signal 52 for spreading on the original signal 51. On the receiving side, the original signal 54 is reproduced by superimposing and despreading the spread code signal 52 again. Played signal 54
Has a higher energy density than the spread signal 53 by an amount corresponding to the spread ratio. The receiver receives the spread signal 53 and the interference signal 55 in a superimposed manner.
Are not despread even if are superimposed. Therefore, in order to disturb the original signal 51 so that it cannot be received, it is necessary to add a disturbing signal 55 having a high energy density corresponding to the spreading ratio. A method of emitting such a high-level interference wave cannot be applied for the purpose of restricting mobile communication in a hospital from the viewpoint of influence on medical equipment and the like.

[0010] In order to control a terminal such as outgoing call restriction only in a specific area within the coverage of mobile communication, in the related art, radio waves other than the mobile communication to be controlled are disabled or unnecessary interference is prevented. There was a problem of giving. Also, it was not possible to perform detailed terminal control other than the call regulation.

The present invention provides a small zone for transmitting specific broadcast information to mobile terminals within a specific control target area set within the coverage of a base station without emitting unnecessary levels of radio waves. An object of the present invention is to provide a pseudo base station device in a mobile communication system capable of setting a broadcast channel.

[0012]

To achieve this object, the present invention is configured as follows. In a mobile communication system in which each mobile terminal is configured to communicate with at least one of a plurality of base stations via a wireless channel, for communication service control on each mobile terminal, from the at least one base station A pseudo base station device arranged in the coverage of the base station to transmit specific broadcast information to each mobile terminal using a result of monitoring a broadcast channel included in the wireless channel, A transmitting unit having a function of transmitting a small zone broadcast channel allocated to the pseudo base station apparatus for transmitting the specific broadcast information separately from the broadcast channel from the base station, and a receiving function of receiving the broadcast channel Receiving the broadcast channel of the base station and the small zone broadcast channel transmitted by the transmitting unit, Control the output of the small zone broadcast channel of the transmitting unit or the small zone of the transmitting unit so as to differ from the output of the broadcast channel by a preset value according to the result of comparison with the base station selection criterion in By controlling the output of the broadcast channel, in a specific control target area in the coverage of the base station, a control function such that the small zone broadcast channel from the pseudo base station device is selected by the mobile terminal. A pseudo base station device in a mobile communication system comprising: In a mobile communication system in which each mobile terminal is configured to communicate with at least one of a plurality of base stations via a wireless channel, for communication service control on each mobile terminal, from the at least one base station A pseudo base station device arranged in the coverage of the base station to transmit specific broadcast information to each mobile terminal using a result of monitoring a broadcast channel included in the wireless channel, A transmitting unit having a function of transmitting a small zone broadcast channel allocated to the pseudo base station apparatus for transmitting the specific broadcast information separately from the broadcast channel from the base station, and a receiving function of receiving the broadcast channel And a plurality of receiving units each of which includes a broadcast channel for the base station and the small zone broadcast transmitted by the transmitting unit. Receiving the channel and comparing it with a base station selection criterion in the mobile communication system, telling the transmitting unit to increase or decrease the output of the small zone broadcast channel of the transmitting unit, and simultaneously increasing a plurality of increase / decrease requests. By controlling the output of the small zone broadcast channel of the transmitting unit according to the request or the maximum reduction request or the average of the requests, the small zone from the pseudo base station in a specific control target area within the coverage of the base station. A pseudo base station device in a mobile communication system, wherein each of the plurality of receiving units has a control function for allowing a broadcast channel to be selected by the mobile terminal. In a mobile communication system in which each mobile terminal is configured to communicate with at least one of a plurality of base stations via a wireless channel, for communication service control on each mobile terminal, from the at least one base station A pseudo base station device arranged in the coverage of the base station to transmit specific broadcast information to each mobile terminal using a result of monitoring a broadcast channel included in the wireless channel, A transmitting unit having a function of transmitting a small zone broadcast channel allocated to the pseudo base station apparatus for transmitting the specific broadcast information separately from the broadcast channel from the base station, and a receiving function of receiving the broadcast channel Having a receiving unit provided at the same position as the transmitting unit, and a broadcast channel for a plurality of mobile communication base stations in the receiving unit. The reception and the transmission of the small zone broadcast channel in the transmission unit are alternately performed in time, and the result of comparing the base station selection criterion in the mobile communication system and a predetermined value corresponding to a predetermined propagation loss is obtained. Controlling the output of the small zone broadcast channel of the transmitting unit so that the pseudo base station device moves at the point where the small zone broadcast channel transmitted from the pseudo base station device receives the propagation loss. A pseudo base station device in a mobile communication system having a control function to be selected by a terminal.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention utilizes a broadcast channel mechanism in mobile communication. The pseudo base station device according to the present invention has a capability of receiving a broadcast channel of the original base station (a capability of a normal terminal),
It has the ability to launch a small zone broadcast channel assigned to the pseudo base station to transmit specific broadcast information separately from the broadcast channel from the base station. With this capability, an unnecessary level of radio wave emission is suppressed and the area to be controlled is set accurately.

[0014]

Embodiment 1 FIG. 1 shows a first example of a pseudo base station apparatus according to the present invention.
1 shows the configuration of the embodiment. The device includes a receiving unit 60 and a transmitting unit 70. Both are connected by a communication line 65 such as a cable or an infrared ray. The receiving unit 60 includes a receiving antenna 61, a broadcast channel receiving unit 62 for receiving a broadcast channel from a base station, a broadcast channel analyzing unit 63 for analyzing a reception state of the broadcast channel, and a communication unit 64 between the transmitting units. Consists of The transmission unit 70 includes a transmission antenna 71, a transmission power control unit 7,
2. It is composed of a broadcast channel transmitting section 73 for transmitting a specific message by a small zone broadcast channel allocated to this pseudo base station apparatus, and a communication section 74 between receiving sections and transmitting sections.
The receiving unit 60 is a terminal in the system as shown in FIG.
Similar to 11, generally plural (the number is hereinafter referred to as N)
Broadcast channels from the base stations 21, 22, and 23 of FIG. The broadcast channel to be received includes the small zone broadcast channel from the transmitting unit 70 of the present apparatus. The present embodiment is applied to a case where the terminal 11 of the system selects a base station having the highest reception level from among a plurality of received broadcast channels and starts communication. Broadcast channel analyzer
At 63, the reception level of each broadcast channel is measured as in the case of the general terminal 11. If the level of the small zone broadcast channel from the transmitting unit 70 is different from the maximum level of the broadcast signal from the normal base stations 21, 22, and 23, the transmission level of the small zone broadcast channel is increased. Alternatively, the instruction to decrease is transmitted to the inter-receiving unit transmitting unit communication unit 74 of the transmitting unit 70 via the receiving unit transmitting unit communication unit 64 and the communication line 65. In transmission section 70, transmission power control section 72 adjusts the transmission level of the small zone broadcast channel in accordance with this command. By the closed loop control of the power control as described above, at the position of the receiving unit 60, the level of the small zone broadcast channel of the pseudo base station apparatus is kept equal to the maximum broadcast level of the broadcast channel from the normal base station. It is.

FIG. 2 conceptually shows the relationship between the strength of radio waves and the positional relationship. In actual mobile communication, fading due to reflection or shielding occurs, and the intensity distribution of a radio wave is complicated, but generally attenuates in inverse proportion to the second to fourth power of the propagation distance. By performing the above-described transmission power control in which the level of the small zone broadcast channel of the pseudo base station apparatus is kept equal to the maximum reception level of the broadcast channel from a normal base station, the reception section of the present apparatus is controlled. inside near the transmission unit 70 from the position P ₀ of 60, the level of small zone broadcast channel of the device is increased. When the terminal 11 is in the inside area, the terminal 11 operates according to the information of the small zone broadcast channel of the pseudo base station apparatus.

How the terminal 11 is controlled within the control target area by setting the small zone broadcast channel information of the pseudo base station device will be described. In order to suppress the transmission from the terminal 11 in the control target area, a message of “prohibition of firing” is notified. In this case, the terminal 11 suppresses transmission to the pseudo base station device and also suppresses transmission to other base stations that can receive the broadcast channel. The terminal 11 has a handover mechanism for switching the base station with which it communicates with the movement. When the terminal 11 during a call enters the control target area,
Recognizes the message "prohibit firing" and disconnects the call.
As an example of another message, a combination of “prohibition of voice” and “data restriction” will be described. For example, there is a case where message communication by a personal computer is acceptable but voice communication is prohibited, such as in a train. Voice terminals that have received "voice prohibition" in the broadcast information of the pseudo base station device are restricted from originating calls. On the other hand, a message communication terminal can make outgoing calls,
Since the communication function itself does not exist in the pseudo base station, it cannot be transmitted to the pseudo base station. "Data regulation" indicates that data communication is currently restricted at the base station, and does not prevent transmission to other base stations. Message communication can be performed.

The pseudo base station apparatus according to the present invention controls a terminal in a control target area which is considerably narrower than a base station coverage of a cellular system, such as a hospital room or in a train, under conditions such as transmission restriction. The purpose is. Therefore, as is apparent from FIG. 3, the present device emits only a radio wave that is slightly stronger than the radio wave arriving at the control target area when the present device is not present. , The strength of this launch signal
Compared to the radio waves emitted from 11 to the base station 21, they are sufficiently weak. For example, if the area is narrowed, such as using one device per room instead of one device per floor, the intensity of the radio wave of this device is almost the same as the intensity of the radio wave that has already arrived. Can be weakened.

[0018]

Example 2 In Example 1, the closed-loop control of the power control, at the position P ₀ of the receiver 60 as shown in FIG. 2,
The case where the level of the small zone broadcast channel of the pseudo base station apparatus is kept equal to the maximum broadcast channel level from the normal base station has been described. In this case, the receiving unit 60
So that the position is present on the end of the controlled area A ₀ to control the terminal. In general, it is desirable that the control target area to be controlled and the installation position of the receiving unit 60 be more free. A level setting function 66 is added to the broadcast channel analyzer 63 of the second embodiment shown in FIG. In the conceptual diagram shown in FIG. 2, when it is desired to install the receiving unit 60 inside the control target area A ₀ , for example, at the position P ₁ , the level L ₀ of the small zone broadcast channel of the pseudo base station apparatus is set to the normal base station. transmission power control is performed such that only the level dL ₁ higher which is set than L _n maximum level simultaneously broadcast channel from. Further, the control target area A ₀ of the receiver 60, for example, if you want to install in position P ₂ is outside, the simultaneous broadcast channel from the level L ₀ is normal base station of a small zone broadcast channel of the pseudo base transceiver station only level dL ₂ which is set above the level largest of L _n performs transmission power control to be lower. The level setting function 66 sets the level so that the same result is obtained even when the level setting function 66 is implemented in the transmission unit 70 as shown in FIG.

[0019]

Third Embodiment In the first embodiment, the number of the receiving unit 60 is one, whereas in the third embodiment, there are a plurality of the receiving units 60 as shown in FIG. As shown in FIG. 7, a comparison circuit 75 is added to the transmission unit 70 in this case. A request to increase or decrease the level of the small zone broadcast channel of the pseudo base station is transmitted from each receiving unit 60. The comparison circuit 75 compares the information and determines the power to be transmitted. As a comparison method, there are a first method that employs the maximum increase request, a second method that employs the average value of the requests, and a third method that employs the maximum decrease request. The first method is effective when it is desired to reliably restrict the terminal at the position of each receiving unit 60 or when the control target area is widened. The third method is effective when it is desired to minimize the emission of radio waves from the small zone broadcast channel of the pseudo base station.

[0020]

Fourth Embodiment In the first, second, and third embodiments, the broadcast channel analysis unit 63 measures the level of the small zone broadcast channel and controls the transmission power of the pseudo base station apparatus based on the level. The broadcast channel analyzer 63 according to the fourth embodiment, which can have the configuration shown in FIG. 4, 5, or 6, uses the SIR of the broadcast channel of each base station including that from the pseudo base station apparatus.
(Signal to interference power ratio) is measured. If the SIR of the broadcast channel from the transmitting unit 70 is different from the maximum SIR of the broadcast channel from the normal base stations 21 and 22, a command to increase or decrease the transmission level of the small zone broadcast channel is issued. The information is transmitted to the inter-receiving unit transmitting unit communication unit 74 of the transmitting unit 70 via the receiving unit transmitting unit communication unit 64 and the communication line 65. In transmission section 70, transmission power control section 72 adjusts the transmission level of the small zone broadcast channel in accordance with this command. By the closed loop control of the power control as described above, at the position of the receiving unit 60, the SIR of the small zone broadcast channel of the pseudo base station apparatus is
Is kept equal to the maximum SIR of the broadcast channel from the normal base station.

The first embodiment is applied to a case where a terminal of the system selects a base station having the highest level from a plurality of broadcast channels received and starts communication. On the other hand, according to the fourth embodiment, the terminal of the system
This is applied when selecting a base station having the largest R (signal-to-interference power ratio) and starting communication. C
In the mobile communication system of the DMA system, the SIR may be used as a criterion for selecting a base station.
This is applied in the case of the MA system. As described above, the operation principle and effect are the same as those of the first embodiment, except that the rules for setting the broadcast channel are different. Examples 2 and 3
It goes without saying that the same additional level setting conditions as those described above can be adopted for the fourth embodiment. In the first and fourth embodiments, the level of the broadcast channel (first embodiment) and the SIR (fourth embodiment) have been described as examples of base station selection criteria in a mobile communication system. However, in an actual mobile communication system, , A combination of these criteria or other criteria may be used. In any case, the base station selection performed by the terminal 11 in the system is a reference that can be observed by the terminal, and the receiving unit 60 according to the present invention has the same capability. Therefore, it is clear that the present invention is not limited to the level of the broadcast channel and the SIR as base station selection criteria.

[0022]

Fifth Embodiment In the first, second, third, and fourth embodiments, the receiving unit 60 and the transmitting unit 70 are installed at different positions, and the two are connected by the communication line 65. In the fifth embodiment, the receiving unit and the transmitting unit are integrated to have a configuration as shown in FIG. The antenna 69 is used for both transmission and reception, and the broadcast channel receiving unit 62 and the broadcast channel transmitting unit 73 are connected through the time division switch 68. Since transmission and reception cannot be performed at the same place, the operation is switched between the reception mode and the transmission mode at regular intervals by the time division switch 68. In the fifth embodiment, a power control setting function unit 77 is provided. First, similarly to the first embodiment, an operation when the terminal of the system is applied to a system in which a base station having the highest level is selected from a plurality of received broadcast channels and communication is started. Will be described with reference to FIG. Set the time division switch 68 to the reception mode,
Similar broadcast channel analyzer 63 is a general terminal 11 to measure the level L _n of simultaneous broadcast channel from each base station. Constant value dL the power control setting function unit 77 provided for in the level L _n
Adding ₀ to determine the transmission level L _s, the transmission power control unit
72 to adjust the transmission level L _s. After a certain time, as the transmission mode division switch 68 time, it sends a small zone broadcast channel from the pseudo base transceiver station at a predetermined level L _s.
As described above, the open loop control with a deviation of the power control embodiment 5 in time, the position P _s of the pseudo base transceiver station
, The level L _s of the small zone broadcast channel of the present apparatus
Constant value dL but the power control setting function unit 77 defines than L _n that the maximum level of simultaneous broadcast channel from the normal base station
_It is kept high by ₀ .

The power control setting function unit 77 in this case will be described. The actual propagation conditions of mobile communication radio waves vary depending on the environment.However, modeling is performed for each typical situation such as line-of-sight propagation, urban propagation, street microcell propagation, building propagation, office propagation, etc. System design has been done. For example, in a free space, a radio wave attenuates in inverse proportion to the square of distance, but in a street cell having a certain distance, it attenuates in inverse proportion to the fourth power of distance. A propagation loss model based on such a propagation model

L = F (x), F: propagation model, x: distance,
L: Propagation loss When the power control setting function unit 77 specifies the propagation model F and the required area size x, the power control setting function unit 77 calculates the propagation loss L, and sets this as the “constant value to keep high”. With this setting, the range of approximately x from the pseudo base station apparatus can be set as the control target area range for controlling the terminal. How the terminal 11 is controlled in the control target area by the setting of the small zone broadcast channel information of the pseudo base station apparatus is the same as in the first embodiment.

[0024]

Sixth Embodiment Next, in the configuration of the fifth embodiment shown in FIG. 7, similarly to the fourth embodiment, the terminal of the system transmits an SIR (signal power to interference power) in a plurality of received broadcast channels. The operation when the present invention is applied to a system in which communication is started by selecting a base station having the largest ratio will be described with reference to Table 1.

[0025]

[Table 1]

With the time division switch 68 set to the reception mode, the broadcast channel analysis unit 63 measures the SIR and level of the broadcast channel from each base station in the same manner as the general terminal 11. Generally, a broadcast channel of a plurality of base stations can be received. Here, the number is assumed to be N, and the measured S
_Let IR and level be SIR _n , B _n (n = 1,..., Respectively)
N). Let the base station with the highest SIR be n = 1.
It is not possible to directly measure the level T _n (n = 1,..., N) of the channels (mainly traffic channels for communication) other than the broadcast channel currently being transmitted by each base station at the position of the apparatus. Generally not possible, but measured SIR
_n , _Bn (n = 1,..., N) can be calculated by the following equation.

[0027]

(Equation 2)

Next, the following quadratic equation (3) for B ₀
Solve.

(Equation 3) Since the quadratic equation always has positive and negative real roots, the positive real root is hereinafter referred to as B ₀ .

When the level of the small zone broadcast channel transmitted from the pseudo base station apparatus according to the present invention is set to B ₀ obtained in this way, at the position of the pseudo base station apparatus,
Bar SIR ₀ of the small zone broadcast channel of the pseudo base station apparatus
Typical bar SIR of the base station becomes greater than or equal to (pseudo base station SIR in the state of being transmitted by B ₀₎ is.
Therefore, similarly to the fifth embodiment, when the propagation loss model is expressed as in the above equation (1), the power control setting function unit 77 specifies the propagation model F and the required area size x and specifies the propagation loss L
Is calculated, and a value obtained by adding this to the above B ₀ is used as the transmission level of the small zone broadcast channel of the present apparatus.

By setting such a transmission level,
Up to about the distance x from the present apparatus, the small zone broadcast channel from the present apparatus has a higher SIR than the general broadcast channel of the normal base station. That is, the range of approximately x from the pseudo base station apparatus can be set as the control target area for controlling the terminal. In this method, it is assumed that the control target area range to be controlled is sufficiently smaller than the coverage of the normal base station, that is, the level of the normal base station does not change significantly on average in the control target area. How the terminal 11 is controlled in the control target area by the setting of the broadcast channel information of the pseudo base station device is the same as that in the first embodiment.

[0031]

Seventh Embodiment In the first, second, third and fourth embodiments, the transmission power of the broadcast channel transmitted from the pseudo base station apparatus according to the present invention is controlled in a closed loop with the receiving unit 60. Further, the transmission power in the fifth and sixth embodiments is an open loop control with a time lag. In a case where the area to be controlled is extremely limited, there is a case where it is not necessary to perform time-varying transmission power control as in these embodiments. In such a case, the present apparatus includes a transmitting antenna 71, a broadcast channel transmitting unit 73, and a transmitting unit 70 including a level setting function 66. The transmission level of the small zone broadcast channel can be set in several ways. The first method is a receiving unit
60 is set once and has the same configuration as in the first, second, third, and fourth embodiments. After the transmission level is determined, the receiving unit 60 is disconnected. In the second method, a communication operation is performed with an actual communication terminal around the control target area, and the transmission level is adjusted so that the desired effect can be obtained within the desired area. Here, "to obtain the expected effect" means that the level is determined when the level of the broadcast channel is determined as in the first embodiment, and the SIR is used as a standard as in the fourth embodiment. In this case, it indicates that a predetermined SIR is obtained. The method of setting the small zone transmission level is not limited to these, but in any case, in this embodiment, the small zone notification channel is transmitted at a constant level after the setting is completed.

[0032]

In general, in a mobile communication system, communication can be performed from anywhere within its coverage, and it is not possible to control terminals (call regulation, service regulation, etc.) for a specific area within the coverage. Generally difficult. For example, when trying to prohibit communication in a hospital from the viewpoint of the influence on medical equipment, the method using radio wave shielding, which is one of the conventional techniques, also blocks television and radio waves other than mobile communication. . Further, the method of generating jamming radio waves adversely affects medical equipment. However, according to the pseudo base station apparatus of the present invention, it is possible to control only a specific hospital room as the control target area. In order to adopt the same broadcast channel structure as the mobile communication system, even in a system using spread signals such as CDMA, control should be performed using radio waves having almost the same strength as radio waves arriving at the control target area. Is possible. Moreover, depending on the state of the incoming radio waves,
Since radio waves from the present apparatus are always suppressed to the minimum necessary level, there is no problem that new radio interference occurs by introducing the present apparatus. Further, it is also possible to install the device of the present invention in a train, for example, and prohibit voice communication in the train but enable data communication by a personal computer.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a first exemplary embodiment according to the present invention.

FIG. 2 is a conceptual diagram for explaining the radio wave intensities of a small zone broadcast channel and a general broadcast channel of a normal base station, which are transmitted by a transmitter in the apparatus of the present invention.

FIG. 3 is a conceptual diagram for explaining the radio wave intensity of a small zone broadcast channel and a broadcast channel of a normal base station transmitted by a transmission unit in the apparatus of the present invention.

FIG. 4 is a block diagram showing a configuration of a second and a fourth embodiment according to the present invention.

FIG. 5 is a block diagram showing a configuration of a second and a fourth embodiment according to the present invention.

FIG. 6 is a block diagram showing a configuration of third and fourth embodiments according to the present invention.

FIG. 7 is a diagram showing a configuration of fifth and sixth embodiments according to the present invention.

FIG. 8 is a conceptual diagram for explaining radio wave intensities of a small zone broadcast channel and a general broadcast channel of a normal base station, which are transmitted by a transmission unit in a fifth embodiment according to the present invention.

FIG. 9 illustrates a typical configuration of a cellular mobile system.

FIG. 10 is a diagram showing a typical sequence when a terminal starts communication in a cellular mobile system.

FIG. 11 is a diagram illustrating signal spreading / spreading in a CDMA mobile communication system.
FIG. 3 is a diagram for explaining the relationship between despreading and jamming radio waves.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 Terminal 21, 22, 23 Base station 31 Wired communication line 32 Mobile exchange 51 Original signal 52 Code signal 53 Spread signal 54 Reproduction signal 55 Interference signal 60 Receiving unit 61 Receiving antenna 62 Broadcast channel receiving unit 63 Broadcast channel analyzing unit 64 Reception Communication unit between transmission units 65 Communication line 66 Level setting function 68 Time division switch 69 Transmission / reception antenna 70 Transmission unit 71 Transmission antenna 72 Transmission power control unit 73 Broadcast channel transmission unit 74 Communication unit between reception unit transmission unit 75 Comparison circuit 77 Power control Setting function section

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification code FI H04Q 7/30 (72) Inventor Akira Yamaguchi 2-3-1 Nishi-Shinjuku, Shinjuku-ku, Tokyo International Telegraph and Telephone Corporation (56 ) References JP-A-10-215483 (JP, A) JP-A-11-17852 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H04B ⁷ /24-7/26 H04Q 7/00-7/38

Claims (11)

(57) [Claims] In a mobile communication system formed so that each mobile terminal communicates with at least one of a plurality of base stations via a radio channel, the mobile terminal controls the communication service for each mobile terminal. A pseudo base station device arranged within the coverage of the base station to transmit specific broadcast information to each of the mobile terminals using a result of monitoring a broadcast channel included in the radio channel from one base station A transmitting unit having a function of transmitting a small zone broadcast channel assigned to the pseudo base station apparatus for transmitting the specific broadcast information separately from the broadcast channel from the base station; and the broadcast channel. A receiving unit having a receiving function of receiving the broadcast signal from the base station, and a broadcast channel for the base station and the small zone broadcast channel transmitted from the transmitting unit. Then, according to the result of collation with the base station selection criterion in the mobile communication system, the output of the small zone broadcast channel of the transmitting unit is controlled or the output is different from the broadcast broadcast channel by a preset value. By controlling the output of the small zone broadcast channel of the transmitting unit, the mobile terminal selects the small zone broadcast channel from the pseudo base station device within a specific control target area within the coverage of the base station. A pseudo base station device in a mobile communication system, comprising: 2. A mobile communication system in which each mobile terminal communicates with at least one of a plurality of base stations via a wireless channel, wherein the at least one of the at least A pseudo base station device arranged within the coverage of the base station to transmit specific broadcast information to each of the mobile terminals using a result of monitoring a broadcast channel included in the radio channel from one base station A transmitting unit having a function of transmitting a small zone broadcast channel assigned to the pseudo base station apparatus for transmitting the specific broadcast information separately from the broadcast channel from the base station; and the broadcast channel. And a plurality of receiving units each having a receiving function of receiving the broadcast signal. The small zone broadcast channel is received and, based on the result of collating with the base station selection criterion in the mobile communication system, the increase / decrease of the output of the small zone broadcast channel of the transmission unit is notified to the transmission unit. By controlling the output of the small zone broadcast channel of the transmitting unit according to the maximum increase request or the maximum decrease request or the average of the requests, from the pseudo base station within a specific control target area within the coverage of the base station. A control function for causing the small terminal broadcast channel to be selected by the mobile terminal,
A pseudo base station device in a mobile communication system provided for each of the plurality of receiving units. 3. The base station selection criterion is a level of the broadcast channel, the broadcast channel levels of a plurality of mobile communication base stations received by the receiving unit, and the small zone broadcast transmitted by the transmitting unit. The pseudo base station device in a mobile communication system according to claim 1 or 2, wherein the control function is configured to be determined by a comparison result of channel levels. 4. The base station selection criterion is an SIR (signal-to-interference power ratio) of the broadcast channel, and the SIRs of the broadcast channels of a plurality of mobile communication base stations received by the receiving unit and the transmitting unit. 3. The pseudo base station apparatus according to claim 1, wherein the control function is configured to be determined based on a comparison result of the SIR of the small zone broadcast channel transmitted by the base station. 4. . 5. A mobile communication system wherein each mobile terminal communicates with at least one of a plurality of base stations via a wireless channel, wherein the at least one of the at least A pseudo base station device arranged within the coverage of the base station to transmit specific broadcast information to each of the mobile terminals using a result of monitoring a broadcast channel included in the radio channel from one base station A transmitting unit having a function of transmitting a small zone broadcast channel assigned to the pseudo base station apparatus for transmitting the specific broadcast information separately from the broadcast channel from the base station; and the broadcast channel. And a receiving unit provided at the same position as the transmitting unit, and a plurality of mobile communication base stations in the receiving unit. The reception of the broadcast channel and the transmission of the small zone broadcast channel in the transmitting section are alternately performed in time, and a base station selection criterion in the mobile communication system and a constant value corresponding to a preset propagation loss are set. By controlling the output of the small zone broadcast channel of the transmitting unit based on the result of the comparison, the pseudo base station is transmitted at the point where the small zone broadcast channel transmitted from the pseudo base station apparatus receives the propagation loss. A pseudo base station device in a mobile communication system having a control function of allowing a device to be selected by the mobile terminal. 6. The base station selection criterion is a level of the broadcast channel, and the level of the broadcast channel of the plurality of mobile communication base stations received by the receiving unit and a predetermined preset value are used for the transmission. The pseudo base station device in a mobile communication system according to claim 5, wherein the control function is configured to determine a level of the small zone broadcast channel transmitted from a unit. 7. The base station selection criterion is a signal-to-interference power ratio (SIR) of the broadcast channel, and the level and SIR of the broadcast channels of a plurality of mobile communication base stations received by the receiving unit are determined in advance. 6. The pseudo mobile communication system according to claim 5, wherein the control function is configured to determine a level of the small zone notification channel transmitted from the transmission unit from a set constant value. Base station device. 8. The control function has a function of setting a model of a radio wave propagation loss distance characteristic in an environment in which a device is used and a function of setting a distance, and a level of the small zone notification channel transmitted from the transmitting unit. The pseudo base station apparatus in a mobile communication system according to any one of claims 5 to 7, wherein a fixed value used in determining the base station is determined by setting the two. 9. The broadcast information of the small zone broadcast channel transmitted from the transmitting unit includes a message for suppressing any transmission from a terminal. A pseudo base station device in the mobile communication system according to any one of the above. 10. The broadcast information of the small zone broadcast channel transmitted from the transmission unit includes a message for suppressing transmission of a specific type of communication from a terminal. 9. The pseudo base station device in the mobile communication system according to any one of items 1 to 8. 11. The broadcast information of the small zone broadcast channel transmitted from the transmission unit includes a message indicating that the pseudo base station apparatus is restricting communication of a specific type. The pseudo base station device according to any one of claims 1 to 8.