KR100563703B1 - A Access Control System For Mobile Phone - Google Patents

Abstract

The present invention relates to an access control system of a mobile communication terminal. The present invention is characterized in that in a connection procedure for accessing a base station from a terminal, a transmission power of an access probe transmitted last in one access sequence is higher than a standard transmission power of the terminal.

According to the above configuration, even when the weak electric field or the channel environment is poor, the terminal can attempt to connect with the maximum power of the terminal, thereby improving access performance of the terminal to the base station.

Access, pilot, probe, sequence, terminal, base station

Description

A control system for mobile communication terminal {A Access Control System For Mobile Phone}

1 is an exemplary power control state diagram when a conventional terminal attempts to access a base station.

2 is an exemplary control configuration diagram of a terminal for access power control according to an embodiment of the present invention.

3 is a state diagram illustrating a power control state according to the present embodiment.

4 is a state diagram illustrating an access power control state of a terminal according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10 ....... Mobile communication terminal 11 ........ System interface

12 ......... Transceiver 13 ........ Microprocessor

14 ......... Memory 15 ........ User Interface

16 ....... Signal input 17 ........ Display

20 ......... Base station 30 ........ Access sequence

31 ......... access probe

31a ........ Last access probe

The present invention relates to an access channel of a mobile communication terminal. More particularly, the present invention relates to an access channel of a mobile communication terminal, in which one access probe or access sequence is used as the maximum power allowed by the terminal. The present invention relates to an access control system of a mobile communication terminal for increasing accessibility.

1 is an exemplary power control state diagram when a conventional terminal attempts to access a base station.

The mobile communication terminal monitors a base ID, an access parameter, an electric field strength, etc. of the base station in a pilot connection step of receiving a signal transmitted from the base station in a standby state.

Based on the monitoring result, the terminal attempts to access the corresponding base station using the access parameter of the corresponding base station. If the access is successful, the terminal can register the terminal to the base station system, and the traffic state is changed to make a call with another terminal. It becomes possible.

An access attempt 1 by a terminal is performed by transmitting several access sequences 2, wherein one access sequence 2 includes a plurality of power signals including preambles and messages. And a probe 3.

In the conventional power control of the probe 3 constituting the access sequence 2, the power of the first probe 3 is low and the power of the power gradually increases by one step so that the power of the last probe is maximized.

The power strength of the conventional probe 3 is determined by the following equation via the access parameter of the base station.

mean output power of access probe (dBm) =

            mean input power (dBm)

            + offset power

            + interference correction

            + NOM_PWRs-16 * NOM_PWR_EXTs

            + INIT_PWRs

            + PWR_LVL * PWR_STEPs

As described above, a plurality of probes 3 radiated with the power calculated by the above formula forms one access sequence 2. The access sequence 2 of power calculated by the above equation is repeatedly radiated from the terminal and attempts to access the base station.

In this access attempt, if the terminal is not registered in the corresponding base station and fails to reach the traffic state, the terminal reselects the cell and attempts to access again.

However, the access control process of the conventional mobile communication terminal having the above configuration has the following problems.

In the conventional terminal, since the access attempt (1) power is set based on the case where the parameters of the base station of the mobile communication network are optimized or the access channel environment is appropriate, the terminal may not be connected by the set power in a poor environment. do.

In addition, power consumption of the terminal is generated while repeating the access sequence 2 several times, and cell reselection is performed without attempting connection by the maximum power of the terminal, thereby reducing access performance of the terminal. Will be imported.

In addition, the terminal attempts to access fails, causing a problem such as missing a page message in the process of cell reselection.

An object of the present invention is to implement an access control system of a mobile communication terminal capable of improving the access performance of the terminal to the base station by adaptively changing the power of the access probe to the surrounding environment.

Another object of the present invention is to implement an access control system of a mobile communication terminal which adaptively changes an access power control of a terminal according to an access environment to prevent unnecessary power consumption in an access process.

In the access control system of the mobile communication terminal according to the present invention for achieving the above object, in the connection procedure for accessing the base station from the terminal, the transmission power of the access probe transmitted at the end of the access sequence, the standard transmission power of the terminal; It is characterized by transmitting higher.

In a connection procedure for accessing a base station from a terminal, when the access sequence is transmitted at standard transmission power several times for an access attempt and is not connected to the base station, the last access sequence transmitted is higher than the standard transmission power of the terminal. It attempts to connect by transmitting power.

Transmitting higher than the standard transmission power is characterized in that it is performed for a connection attempt in the weak field.

The transmission voltage higher than the standard transmission power is characterized in that the maximum transmission voltage possible at the terminal.

When the transmission is higher than the standard transmission power, the strength of the power is characterized in that it is changed to be transmitted to the maximum voltage calculated according to the electric field distribution around the terminal.

When the connection is successful by the maximum power, the traffic power is maintained in a suitable range by the closed loop voltage control in the traffic state.

According to the above configuration, even when the weak electric field or the channel environment is poor, the terminal can attempt to connect with the maximum power of the terminal, thereby improving access performance of the terminal to the base station.

Hereinafter, a configuration of a preferred embodiment of an access control system for a mobile communication terminal according to the present invention having the above configuration will be described in detail with reference to the accompanying drawings.

2 is an exemplary control configuration diagram of a terminal for access power control according to an embodiment of the present invention, and FIG. 3 is a state diagram illustrating a power control state according to the present embodiment.

As shown, the mobile communication terminal 10 of the present embodiment includes a system interface 11 for performing system control of the terminal and a user interface 15 for enabling the operation of the terminal 10 by a user.

The system interface 11 includes a microcomputer and a transmitter / receiver 12 controlled to perform radio transmission and reception. The microcomputer of this embodiment includes a modem chip and memory 14 incorporating a microprocessor 13.

The user performs an operation of the terminal 10 through the user interface 15 such as the signal input unit 16 or the display unit 17, and selects a desired service from various functions provided to the terminal 10.

When the user operates the terminal, the transceiver 12 performs a pilot connection with a plurality of base stations 20 around by the control of the microprocessor 13, and the base ID of the base station 20 from the base station 20. , Access parameters, power levels, and so on.

The microprocessor 13 selects one base station 20 that provides a service according to a program stored in the memory 14 based on the parameters for each base station 20 obtained as a result of the monitoring.

When the serving base station 20 is selected, an attempt is made to access by a parameter given to the base station 20.

In the microprocessor 13 of the terminal 10 according to the present embodiment, in the access sequence 30 composed of a plurality of access probes 31, the strength of each of the access probes 31 is based on the access parameters of the base station. This is determined by the following formula stored in the terminal 10.

mean output power of access probe (dBm) =

            mean input power (dBm)

            + offset power

            + interference correction

            + NOM_PWRs-16 * NOM_PWR_EXTs

            + INIT_PWRs

            + PWR_LVL * PWR_STEPs

However, the last probe 31a of the access sequence is not determined by the above equation but by the access environment and the maximum access power of the terminal 10.

That is, when the strength of the signal received from the base station 20 is weak, the microprocessor 13 controls the base station 20 to transmit the last essex probe 31a as strongly as possible in one sequence 30. Even if it is far from 10, registration and call setup of the terminal 10 can be easily performed.

In the present embodiment, when the strength of the electric field from the base station is very weak, the microprocessor 13 supplies the power of the last access probe 31a in one access sequence 30 to the maximum possible in the terminal 10. Control with the power output of

Therefore, the terminal 10 of the present embodiment can prevent the power consumption due to a long time access attempt performed by the standard transmission voltage in the conventional terminal.

In addition, when the terminal 10 of the present embodiment does not register or call setup of the terminal 10 due to an access attempt by low power, the terminal 10 undergoes a cell reselection process and attempts to access another base station unnecessarily. This will prevent you from doing so.

To this end, the terminal 10 of the present embodiment stores a program for power control of each probe 31 and 31a of the access sequence 30 for access power control, and is transmitted from the terminal 10 according to the level of the surrounding electric field. The maximum voltage of the last probe 31a of the access sequence 30 is adjusted.

In one access sequence 30, the voltage of the last probe 31a may be controlled up to the maximum power that the terminal 10 can transmit according to the strength of the surrounding electric field.

In addition, since the terminal 10 of the present embodiment uses a closed loop power control method in a traffic state even when a call setup is performed by the maximum power, the traffic can be maintained at an appropriate level of power between the terminal 10 and the base station 20. It is configured to be.

The following describes the operation of the access control system of the mobile communication terminal according to the present invention having the configuration as described above.

When the user uses the terminal 10 in the strong electric field, the power of each probe 31 constituting the access sequence 30 is calculated by the above-described formula, and the last probe 31a of the sequence 30 is It transmits to the maximum voltage calculated in consideration of the level of the surrounding electric field to prevent registration failure or call set-up failure due to deterioration of system performance.

When the terminal 10 is operating on the weak electric field, each probe 31, 31a of the access sequence 30 is controlled according to the power value calculated according to the above-described formula, and the last probe 31a is the terminal. In consideration of the strength of the received electric field from the base station 20 monitored in (10) to be controlled to the maximum allowable power value of the terminal (10).

As a result, the terminal 10 can access attempts in consideration of the electric field strength without being limited to the limitation by the parameters of the base station 20, so that the possibility of access failure that may exist in the weak electric field can be reduced, and rapid access can be achieved. It becomes possible.

In addition, when the call setup is made and enters the traffic state, the initial power of the traffic state is somewhat larger because it is initially affected by the power value used for the access attempt, but the closed loop is maintained when the traffic state is maintained. Since the power control is made, the power control is made with suitable power for transmission and reception with the base station 20.

4 illustrates an access power control state of a terminal of another embodiment according to the present invention. As shown, the access power control of the present embodiment attempts to access the first few access sequences 31 with the electric power by the standard power as described above in the entire process of the access attempt 40.

However, in one access attempt 40, the last access sequence 41a is attempted to access the base station 20 by the power value calculated by the level of the surrounding electric field and the maximum power that can be transmitted by the terminal 10. .

In this last access sequence 41a, the power of each of the access probes 43a is determined by the power higher than the standard power calculated by the formula of the above embodiment. If not, the terminal 10 performs cell reselection according to a normal access procedure.

The scope of the present invention is not limited to the above embodiments, but is defined by the matters described in the claims, and it is obvious that the present invention includes various modifications and adaptations made by those skilled in the art in the same range as the matters described in the claims.

According to the above configuration, even if the hardware performance of the terminal is weak or attempts to access from a weak electric field, the accessibility with the base station is increased.

In addition, since one attempt is made to access the terminal by the maximum power allowance for one sequence or one accessor attempt in one access sequence, a large power is required when the sequence is repeated or reselection occurs. It is possible to improve the performance of the terminal by increasing the connection with the base station without the consumption.

Claims (6)

In an access attempt for accessing a base station of a mobile communication terminal performed by a plurality of access sequences consisting of a plurality of access probes whose transmission power gradually increases, The first several probes in the access sequence are based on the standard transmission power, and the transmission power of the last access probe is transmitted higher than the standard transmission power of the terminal, characterized in that the access control system of the mobile communication terminal. In an access attempt for accessing a base station of a mobile communication terminal performed by a plurality of access sequences consisting of a plurality of access probes whose transmission power gradually increases, When the access sequence is transmitted at standard transmission power several times for the access attempt and is not connected, the last transmitted access sequence attempts to connect by transmitting at a power higher than the standard transmission power of the terminal. Access control system of the terminal. The access control system according to claim 1 or 2, wherein the transmission at a higher level than the standard transmission power is performed when a connection is attempted in a weak electric field. The access control system according to claim 1 or 2, wherein the voltage transmitted higher than the standard transmission power is the maximum transmission voltage possible at the terminal. The access control system according to claim 1 or 2, wherein when the transmission is performed higher than the standard transmission power, the power intensity is changed so as to be transmitted at the maximum voltage calculated according to the electric field distribution around the terminal. The access control system for a mobile communication terminal according to claim 1 or 2, wherein the traffic power is maintained in a suitable range by a closed loop voltage control in a traffic state when the connection is successful by the maximum power.

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