KR100627111B1 - Portable Mobile Terminal Equipment and Method and System for Cell Switching thereof - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile mobile terminal and a cell switching method and system for optimizing the target pilot selection of the mobile mobile terminal and the timing and method of switching to the target pilot.

The portable mobile terminal for selecting a target cell and switching to the selected target cell according to the present invention includes an extended system parameter message including a reference pilot strength for comparing the pilot strength of the target cell to a dummy bit region, and the target. A receiver for receiving a pilot message of the cell; A memory for storing a value of a current cell, a cell value before cell switching to a current cell, and storing the extended system parameter message; The pilot strength of the target cell is determined using the extended system parameter message. When the target pilot strength is greater than the reference pilot strength, an error rate of data received in the current cell is calculated. Rediscovering a new pilot and comparing the calculated error rate with a predetermined reference error rate, if the calculated error rate is greater than the reference error rate, determining whether the target cell is equal to the previous cell value stored in the memory. If it is less than the reference error rate, the new pilot is searched again. If the value of the target cell is the same as the value of the previous cell, it is determined whether a specified delay time has elapsed after switching to the current cell and the value of the target cell is determined. If not equal to the value of the previous cell, from the current cell to the target cell If it is determined that the switching, and that the delay time has elapsed if it is determined in the current cell with a target cell, and the cell switching the delay time below, and a control unit for controlling so as to re-search for a new pilot; The controller may store the reference error rate in the memory.

Description

Portable mobile terminal equipment and method and system for cell switching             

1 is a schematic diagram of a cell switching system of a portable mobile terminal.

2 is a diagram briefly showing the configuration of a portable mobile terminal.

3 is a diagram illustrating a cell switching method of a portable mobile terminal.

4 is a diagram illustrating delivery of an ESPM and an SCM between a mobile mobile terminal and a base station.

5 is a diagram illustrating a cell switching method of a mobile mobile terminal in consideration of quality of service.

Explanation of symbols on the main parts of the drawings

10: terminal 20, 1100: base station

30: base station controller 40: mobile switching center

100: mobile communication system 110: terminal transmitter

120: terminal receiving unit 130: terminal control unit

140: terminal memory

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile mobile terminal (or mobile station (MS)), and more particularly to a mobile mobile terminal for optimizing a target pilot selection and switching timing and method of the target mobile pilot. The present invention relates to a terminal and a cell switching method and system thereof.

Among general wireless mobile communication systems, a device including a concept of a cell or a device using the concept of a cell has a process of handoff or handover. A cell defines a certain service providing area that a base station (BS) is responsible for in wireless communication. Handoff refers to a terminal moving from a current cell to another cell or a terminal using two or more systems from one system to another in the same cell. In addition, the present invention is applied when moving an area of a mobile switching center (hereinafter referred to as "MSC") that manages a base station.

Such handoff has a problem in that, when the mobile mobile terminal is performing data communication, the data transmission rate is low, the transmission error rate is high, and the transmission quality is degraded. In order to solve the problem of deterioration of transmission quality, in the case of the recent 1x EV-DV (EVolution Data & Voice) system, the base station and the mobile terminal that are currently communicating the F-PDCH (Foward Packet Data CHanel) are moved. By allocating to the pilot of the base station, the transmission quality is reduced. Since the handoff in the aforementioned 1x EV-DV system provides a continuous service by allocating an F-PDCH, unlike the conventional handoff, the term cell switching is used to distinguish it from the existing handoff.

However, although the 1x EV-DV (EVolution Data & Voice) international standard (3GPP2 C.S0003 (MAC)) also outlines the cell switching method of the terminal, the method of selecting the target cell and switching timing are clearly defined. It is not defined. Only the switching pattern is defined by describing the cell switching period, the reporting method, the number of switching slots to which the Walsh Cover of the target cell is applied, the number of repetitions of the CQI (channel state information), and the like. For this reason, there is a problem in that a high error rate (Frame Error Rate) and a low data transmission rate are changed when changing a cell providing a service in the mobile mobile terminal. In order to solve such a problem, there is an urgent need for the pilot selection of the mobile mobile terminal and the optimization of the timing and method of switching to the target pilot.

Accordingly, an object of the present invention is to provide a mobile mobile terminal and a cell switching method and system for optimizing a target pilot selection and a switching timing and method for switching to a target pilot.

In order to achieve the above object, a portable mobile terminal for selecting a target cell according to the present invention and switching to a selected target cell includes an extended reference pilot strength for comparing the pilot strength of the target cell to a dummy bit area. A receiver which receives a system parameter message and a pilot message of the target cell; A memory for storing a value of a current cell, a cell value before cell switching to a current cell, and storing the extended system parameter message; The pilot strength of the target cell is determined using the extended system parameter message. When the target pilot strength is greater than the reference pilot strength, an error rate of data received in the current cell is calculated. Rediscovering a new pilot and comparing the calculated error rate with a predetermined reference error rate, if the calculated error rate is greater than the reference error rate, determining whether the target cell is equal to the previous cell value stored in the memory. If it is less than the reference error rate, the new pilot is searched again. If the value of the target cell is the same as the value of the previous cell, it is determined whether a specified delay time has elapsed after switching to the current cell and the value of the target cell is determined. If not equal to the value of the previous cell, from the current cell to the target cell If it is determined that the switching, and that the delay time has elapsed if it is determined in the current cell with a target cell, and the cell switching the delay time below, and a control unit for controlling so as to re-search for a new pilot; The controller may store the reference error rate in the memory.
The dummy bit area of the extended system parameter message may include a 3-bit data area in which the reference pilot strength data can be written.
The dummy bit area of the extended system parameter message may further include a 1-bit command data area instructing to activate the dummy bit area of the extended system parameter message.
The control unit may store the value of the current cell as a value of a new previous cell and the value of the target cell as a value of a new current cell when controlling cell switching from the current cell to the target cell. Characterized in that.
The portable mobile terminal for selecting a target cell and switching to the selected target cell according to the present invention includes an extended system parameter message including a reference pilot strength for comparing the pilot strength of the target cell to a dummy bit region; A receiver which receives a message of the target pilot; A memory for storing a value of a current cell, a cell value before cell switching to a current cell, and storing the extended system parameter message; A memory for storing a value of a current cell, a cell value before cell switching to a current cell, and storing the extended system parameter message; The pilot strength of the target cell is determined using the extended system parameter message. If the strength of the target pilot is greater than the reference pilot strength, the data transmission rate received from the current cell, the lowest transmission rate for each current service option, and the subscriber are determined. Compare to the target rate of at least one of the lowest transmission rate of each star and re-search for a new pilot when it is less than the reference pilot strength, and if the data transmission rate of the current cell is less than the target rate, The error rate is calculated and the new pilot is searched again if it is larger than the target speed, and the calculated error rate is compared with a predetermined reference error rate. When the calculated error rate is larger than the reference error rate, the value of the target cell and the previous cell stored in the memory are calculated. Judge whether the values are equal If the error rate is less than the quasi-error rate, the new pilot is searched again. If the value of the target cell is the same as the value of the previous cell, it is determined whether a specified delay time has elapsed after switching to the current cell. If it is not equal to the value of the previous cell, the cell is switched from the current cell to the target cell, and if it is determined that the delay time has elapsed, the cell is switched from the current cell to the target cell and if it is determined that the delay time is less than a new pilot is performed. A control unit for controlling rescanning; The controller may store the reference error rate in the memory.
In addition, a cell switching method of a mobile mobile terminal for selecting a target cell and switching to a selected target cell according to the present invention includes an extended reference pilot strength for comparing the pilot strength of the target cell to a dummy bit area. Receiving a system parameter message and a message of the target pilot; Storing a value of a current cell, a cell value before cell switching to a current cell, and storing the extended system parameter message in a memory; The pilot strength of the target cell is determined using the extended system parameter message. When the target pilot strength is greater than the reference pilot strength, an error rate of data received in the current cell is calculated. Rediscovering a new pilot; Comparing the calculated error rate with a predetermined reference error rate, if the calculated error rate is greater than the reference error rate, it is determined whether the value of the target cell is equal to the previous cell value stored in the memory. Rescanning; If the value of the target cell is equal to the value of the previous cell, it is determined whether a specified delay time has elapsed after switching to the current cell, and if the value of the target cell is not equal to the value of the previous cell, Cell switching to the target cell; And if it is determined that the delay time has elapsed, switching the cell from the current cell to the target cell, and re-searching for a new pilot if it is determined that the delay time is not reached.
In addition, a cell switching method of a mobile mobile terminal for selecting a target cell and switching to the selected target cell according to the present invention,
Receiving an extended system parameter message including a reference pilot strength for comparing the pilot strength of the target cell to a dummy bit region and a message of the target pilot; Storing a value of a current cell, a cell value before cell switching to a current cell, and storing the extended system parameter message in a memory; The pilot strength of the target cell is determined using the extended system parameter message. If the strength of the target pilot is greater than the reference pilot strength, the data transmission rate received from the current cell, the lowest transmission rate for each current service option, and the subscriber are determined. Comparing the target rate of at least one of the lowest transmission rates and re-discovering a new pilot when the reference pilot strength is less than the reference pilot strength; Calculating an error rate of data received in the current cell if the data rate of the current cell is less than the target rate and re-searching for a new pilot if the data rate is greater than the target rate; Comparing the calculated error rate with a predetermined reference error rate, if the calculated error rate is greater than the reference error rate, it is determined whether the value of the target cell is equal to the previous cell value stored in the memory. Rescanning; If the value of the target cell is equal to the value of the previous cell, it is determined whether a specified delay time has elapsed after switching to the current cell, and if the value of the target cell is not equal to the value of the previous cell, Cell switching to the target cell; And if it is determined that the delay time has elapsed, switching the cell from the current cell to the target cell, and re-searching for a new pilot if it is determined that the delay time is not reached.
In addition, a cell switching system of a mobile mobile terminal for selecting a target cell and switching to the selected target cell according to the present invention includes an extended reference pilot strength for comparing the pilot strength of the target cell to a dummy bit region. A base station and a base station control station for creating a system parameter message and transmitting it to a portable mobile terminal; Store the value of the current cell, store the cell value before cell switching to the current cell, store the extended system parameter message, and use the extended system parameter message to determine the pilot strength of the target cell. If it is determined that the intensity of the target pilot is greater than the reference pilot intensity, the error rate of the data received in the current cell is calculated. If the intensity of the target pilot is less than the reference pilot intensity, the new pilot is searched again, and the calculated error rate and the predetermined reference error rate are calculated. In comparison, if the calculated error rate is greater than the reference error rate, it is determined whether the value of the target cell is equal to the previous cell value stored in the memory. If the calculated error rate is less than the reference error rate, a new pilot is searched again and the value of the target cell is determined. Is equal to the value of the previous cell after cell switching to the current cell. If it is determined whether a specified delay time has elapsed and the value of the target cell is not the same as the value of the previous cell, the cell is switched from the current cell to the target cell. And a portable mobile terminal for re-discovering a new pilot when it is determined that the cell is switched to the cell and the delay time is not reached.
In addition, the cell switching system of a mobile mobile terminal for selecting a target cell and switching to the selected target cell according to the present invention,
A base station and a base station control station for creating an extended system parameter message including a reference pilot strength for comparing pilot strengths of the target cells in a dummy bit region and transmitting the same to a portable mobile terminal; The pilot strength of the target cell is determined using the extended system parameter message. If the strength of the target pilot is greater than the reference pilot strength, the data transmission rate received from the current cell, the lowest transmission rate for each current service option, and the subscriber are determined. Compare to the target rate of at least one of the lowest transmission rate of each star and re-search for a new pilot when it is less than the reference pilot strength, and if the data transmission rate of the current cell is less than the target rate, The error rate is calculated and the new pilot is searched again if it is larger than the target speed, and the calculated error rate is compared with a predetermined reference error rate. When the calculated error rate is larger than the reference error rate, the value of the target cell and the previous cell stored in the memory are calculated. Judge whether the values are equal If the error rate is less than the quasi-error rate, the new pilot is searched again. If the value of the target cell is the same as the value of the previous cell, it is determined whether a specified delay time has elapsed after switching to the current cell. If it is not equal to the value of the previous cell, the cell is switched from the current cell to the target cell, and if it is determined that the delay time has elapsed, the cell is switched from the current cell to the target cell and if it is determined that the delay time is less than a new pilot is performed. A mobile mobile terminal for rescanning is provided.

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Other objects and advantages of the present invention in addition to the above objects will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 1 to 5.

1 is a diagram schematically illustrating a cell switching system of a portable mobile terminal according to an embodiment of the present invention.

Referring to FIG. 1, the cell switching system of the present invention creates an extended system parameter message (hereinafter referred to as "ESPM") and a new target pilot message and transmits it to a base station transmitting the messages. The mobile MSC 40 and the portable mobile terminal 10 for controlling cell switching by the control procedure described later are provided.

The portable mobile terminal of the present invention can be implemented as a commercially available 1x EV system, and the detailed description of the present invention has been described using a system of 1x EV-DV and 1x EV-DO as an example. Detailed description of the present invention will be described later with reference to FIGS. 2 and 4.

2 is a view showing in more detail the configuration of the portable mobile terminal 10 of FIG. 1 according to an embodiment of the present invention.

The mobile terminal according to the present invention includes a receiver 120 for receiving a new target pilot message, and a controller 130 for determining a switching time point and a method according to a cell switching procedure to be described later. The controller further includes a memory 140 for storing the pilot value of the current cell and the value of the new target pilot, comparing and storing the received data error rate from the current cell and the reference error rate received by the ESPM.

3 is a flowchart showing step by step a control procedure of a cell switching method in a mobile mobile terminal according to an embodiment of the present invention.

1 to 4, in the cell switching method of the mobile mobile terminal 10 according to the present invention, whether a signal received by the mobile mobile terminal 10 for switching a cell to a target cell is a signal from a pilot of a current cell. The PEN offset (PN_Offset) is stored to distinguish whether the signal is from a pilot of the target cell. (S10) As shown in FIGS. 2 and 3, the PEN offset of the cell before the cell switching is changed to the previous cell value as shown in FIGS. 2 and 3. It is stored in the memory 140, and the PEN offset of the cell after the cell switching is stored in the memory 140 as the current cell value (S10).

In detail, the mobile communication system 100 that provides a service to the portable mobile terminal 10 includes a plurality of channels for various information and voice / data communication with each other. Among the plurality of channels, an overhead channel through which the base station 20 provides system information to the mobile mobile terminal 10 includes pilot channels, sync channels, and paging channels. And the like.

When power is applied to the portable mobile terminal 10, the system information stored in the internal memory 140 is synchronized with the system using a pilot channel and a sink channel, and the necessary information is received by the receiver 120. When the mobile station initialization state using the pilot channel and the sink channel is completed, the mobile station proceeds to the idle state. In the standby state, the mobile terminal 10 receives all system information to complete normal operation, and then continuously receives a paging channel. In the standby state, the system enters a system access state in which a traffic channel and a data channel assignment for accessing the mobile communication system 100 for voice call or data communication are performed. When a connection is established in the system connection state, the communication state becomes (Traffic State).

Through this process, the mobile terminal 10 is connected to the mobile communication system 100 to provide a voice call and data communication to the user. When the communication ends, the mobile terminal 10 always starts again from the initialization process to reset the sync. This is to receive and reset the system time, various codes, system information, etc., which may be misaligned during the call.

4 is a diagram illustrating delivery of an ESPM and an SCM between a mobile mobile terminal and a base station.

Referring to FIG. 4, the portable mobile terminal 10 receives an ESPM together with system information in a standby state. Subsequently, channel allocation is made, and a standby state in which an acknowledgment (Ack Order) is transmitted between the mobile terminal and the base station is continued. Thereafter, a service request and a service connection message are transmitted between the base station 20 and the portable mobile terminal 10. When the service is connected, a service connection completion message is transmitted. When the service connection complete message is sent, the call is established, i.e., the system is connected.

The pilot channel and the sync channel described above include a PN_Offset, which is an offset value of PN_Code having a different value to distinguish each base station 20. The PEN offset is an identification code transmitted to a cell in charge of each base station so that the mobile mobile terminal 10 can distinguish the base station 20. Since the offset is set to a relatively large value between the adjacent base stations 20, the portable mobile terminal 10 can distinguish the base station 20.

In order to use the PEN offset as a criterion for distinguishing the base station 20, the portable mobile terminal 10 stores the PEN offset of the current cell as the current cell value of the memory in the memory 140. In addition, the PEN offset transmitted by the cell before cell switching to the current cell is stored in the memory 140 as the previous cell value.

If the PEN offset of the previous cell and the current cell is stored in the memory 140, the new pilot is searched until a new pilot is found in addition to the current pilot.

When a new pilot is found, it is determined whether the strength of the found pilot, that is, the target pilot, is large enough for cell switching (S30).

In order to determine whether the strength of the target pilot is sufficient for cell switching, the strength of the target pilot measured by the mobile mobile terminal 10 and the reference pilot strength of the corresponding base station 20 transmitting the target pilot are compared. The reference pilot strength is a criterion presented by the target cell transmitting the found pilot, and means a predetermined pilot strength for wireless communication between the mobile mobile terminal 10 and the mobile communication system 100 in the target cell. The reference pilot strength is set to the lowest value for wireless communication in consideration of the radio environment of the target cell or to use a predetermined value set in consideration of the radio communication quality.

The reference pilot strength for determining the strength of the target pilot is transmitted to the mobile mobile terminal 10 using ESPM. System information and personal call information are transmitted from the base station 20 to the mobile mobile terminal 10 using the paging channel of the above-described overhead channel. At this time, the system information transmitted using the paging channel is a system overhead message (System Overhead Message), ESPM, SPM (System Parameter Message) and APM (Access Parameter Message).

In ESPM, two fields are allocated, AMS (Auto_Message_Supported: "AMS") and AMI (Auto_Message_Internal: "AMI"). ESPM's AMS was originally intended for use in a Wireless Local Loop (WLL) system, but in the present invention, the AMS is used as a function for activating the derby bit of the AMI. The AMS can use either a low (0) or high (1) value, which enables the data to be written to the dummy bits of the AMI using the high (1) value.

Originally, the AMI was a function of indicating a minimum time interval in which a terminal spontaneously sends a message to the network. These AMI dummy bits are 3 bits, and the relationship between the combination of dummy bits and the actual strength is shown in Table 1.

Dummy bit combination Real century Dummy bit combination Real century 0 0 0 -12.5dB 1 0 0 -10.5 dB 0 0 1 -12 dB 1 0 1 -10 dB 0 1 0 -11.5 dB 1 1 0 -9.5 dB 0 1 1 -11 dB 1 1 1 -9 dB

Each dummy bit combination value shown in Table 1 is coded in HTML through a hard coding, that is, a simple editor, to the base station and the mobile terminal. By using two unused fields of ESPM, backward compatibility can be maintained with existing mobile communication systems. The combination shown in Table 1 is an example and may vary depending on the wireless environment of the mobile communication system.

On the other hand, the portable mobile terminal 10 uses the intensity of the Pien offset transmitted by the base station 20 of the target cell to measure the pilot strength of the target cell. The PEN offset received by the receiver 120 is measured for 20 ms or 40 ms, the average value (dB) of the intensity is calculated by the controller 130, and the calculated average value is compared with the reference pilot intensity.

For example, if the reference pilot strength presented in the radio environment of the target cell is -11 dB, the base station 20 inputs "0 1 1" into 3 bits of the AMI and transmits it to the portable mobile terminal 10.

At this time, the portable mobile terminal 10 measures the intensity of the PEN offset received from the base station 20 of the target cell in order to measure the pilot strength of the target cell. If the pilot strength of the target cell measured by the portable mobile terminal 10 is -11 dB or more, it is determined to be large enough to switch the cell (S30). However, when the pilot cell is measured to be -11 dB or less, a new pilot is searched. )

 By comparing the measured average value with the reference pilot strength, if the average value is greater than the reference pilot strength, the controller 130 determines whether the received data error rate from the current cell is greater than the reference error rate (S40).

The reference error rate is set to the lowest value for performing wireless communication in consideration of the wireless communication environment, or in consideration of the quality of the wireless communication, such as the reference pilot strength described above. This reference error rate is transmitted from the base station 20 of the target cell to the mobile mobile terminal 10. The transmission of the reference error rate is transmitted using a service connect message (hereinafter, referred to as "SCM") transmitted after the call setup between the mobile terminal 10 and the base station 20 is made. SCM is sent over the traffic channel when call setup is made. Such an SCM is provided with a user field in which a user can arbitrarily input a predetermined definition value. The above-mentioned reference error rates, MDRTS and MDRTO are input to these user fields and received by the receiver 120 of the portable mobile terminal 10.

The values transmitted using the SCM are the minimum data rate for the current service option (hereinafter referred to as "MDRTO") and the minimum data rate for this subscriber to consider the communication service quality. (Hereinafter, referred to as "MDRTS"), a reference data rate for calculating MDRTO and MDRTS, and a threshold frame error rate for comparing an error rate of data received from a current cell. MDRTO, MDRTS, reference transmission rate and reference error rate are 4 bits each, and a total of 16 bits are input to the user field of the SCM and are provided to the mobile communication terminal 10. Values input to the SCM are created and stored in the MSC 40 and provided to the mobile mobile terminal 10 through the base station 20. MDRTO, MDRTS and reference transmission rate will be described later.

The reference error rate is calculated by equation (1).

Decimal value of setting error rate x 4 bit combination

In Equation 1, the setting error rate is coded in the portable mobile terminal 10 and the mobile communication system 20, and typically has a value of 1%. This setting error rate may be set differently according to the environment of the wireless network. For example, it may be set to 1% or less to provide high quality call quality, and may be set to a value of 10% or more for a region having a poor wireless environment such as an island and a mountainous region.

Meanwhile, the decimal value of the 4-bit combination is a binary combination of '0000' to '1111', and may represent an error rate of 16 grades. In other words, if a combination of four bits '0001' represents 1%, '1111' may represent 15%. In addition, the increase value between the first grade may be set to 1%, and may be set to a ratio of 2, 3% or the like as necessary.

Table 2 shows the reference error rate when the set error rate is 1% and 2%, respectively.

 4-bit combination Reference error rate  4-bit combination Reference error rate When setting error rate is 1% When setting error rate is 2% When setting error rate is 1% When setting error rate is 2% 0 0 0 0 0% 0% 1 0 0 0 8% 16% 0 0 0 1 One% 2% 1 0 0 1 9% 18% 0 0 1 0 2% 4% 1 0 1 0 10% 20% 0 0 1 1 3% 6% 1 0 1 1 11% 22% 0 1 0 0 4% 8% 1 1 0 0 12% 24% 0 1 0 1 5% 10% 1 1 0 1 13% 26% 0 1 1 0 6% 12% 1 1 1 0 14% 28% 0 1 1 1 7% 14% 1 1 1 1 15% 30%

For example, when the setting error rate is set to 1%, when the reference error rate of the service provided by the mobile communication system 100 is 2%, the value transmitted as 4 bits of the SCM is '0010'. '0010' is received by the receiver 120, and the reference error rate is calculated by Equation 1 in the controller 130 of the portable mobile terminal 10. Alternatively, the error rate data shown in Table 2 may be stored in the memory 140 of the portable mobile terminal 10, and then the control unit 130 may read a value corresponding to '0010'. In this manner, the reference error rate set by the mobile communication system 100 is transmitted to the portable mobile terminal 10.

Meanwhile, the controller 130 of the mobile mobile terminal 10 calculates an error rate of data received from the current cell. (S40) When the error rate is calculated, the controller 130 calculates the error rate and the reference calculated by the SCM. By comparing the error rate, it is determined whether the calculated error rate is greater than the reference error rate.

On the other hand, if the measured average value is smaller than the reference pilot strength, the mobile terminal searches for a new pilot (S20).

When the calculated error rate is greater than the reference error rate, the controller 130 determines whether the target cell is the same as the previous cell by comparing the calculated error rate with the reference error rate.

In order to determine whether the target cell and the previous cell are the same, the previous cell value stored in the memory 140 is used. It is determined whether the PEN offset transmitted from the target cell is the same as the value of the previous cell stored in the memory 140 (S50).

If it is determined whether the target cell and the previous cell are the same, if the target cell and the previous cell are the same, the controller 130 determines whether the designated delay time has elapsed since the cell switching in the previous cell (S60).

The reason for determining whether the target cell is the same as the previous cell and whether the delay time has elapsed is to prevent a ping-pong effect that may occur when switching cells. When the mobile mobile terminal 10 moves to a service providing area of a specific cell, location registration is performed at the boundary to recognize the location of the mobile mobile terminal in the mobile communication network. The ping pong phenomenon refers to a phenomenon in which call quality, data transmission quality, etc. are degraded due to continuous location registration when the mobile mobile communication terminal 10 moves in two or more cell boundary regions.

That is, when the target cell to which the mobile mobile terminal 10 intends to perform cell switching is a cell before the cell switching to the current cell, a ping pong phenomenon occurs if a sufficient delay time does not pass after the cell switching. Therefore, by determining whether the previous cell and the target cell are the same and whether the delay time has elapsed, the optimized location registration is performed to prevent the degradation of mobile communication quality.

On the other hand, if it is determined whether the target cell is identical to the current cell, and if the target cell and the previous cell are not the same, the controller 130 terminates the connection with the current cell and simultaneously performs cell switching on the target cell. In this case, when the switching period ends, the PEN offset value of the current cell is stored in the memory 140 of the previous cell, and the PEN offset value of the target cell is stored in the memory 140 of the current cell. Complete the switching (S70). After completion of the cell switching, the terminal 10 searches for a new pilot again (S20).

It is determined whether a specified delay time has elapsed after the cell switching in the previous cell. If the specified delay time has elapsed, the controller 130 terminates the connection with the current cell and performs cell switching for the target cell. In this case, when the switching period ends, the PEN offset value of the current cell is stored in the memory 140 of the previous cell and the PEN offset value of the target cell is stored in the memory 140 of the current cell. After the cell switching is completed, the terminal 10 re-searches for a new pilot (S20).

According to the above-described method, the mobile mobile terminal selects a target cell to be subjected to cell switching and determines the timing and method of cell switching, thereby achieving effective cell switching.

5 is a flowchart illustrating cell switching of a portable mobile terminal according to another embodiment of the present invention.

The cell switching process (S230) of storing the PEN offset of the present embodiment (S210) to the intensity of the target pilot and the filer strength of the current cell is substantially the same as the above-described embodiment, while considering the quality of service. Further comprising the step (S240).

When the average value is greater than the reference pilot strength by comparing the measured average value and the reference pilot strength, the controller 130 determines whether the data reception rate measured in the current pilot is less than MDRTO or MDRTS (S240).

As described above, the transmission of the MDRTO and the MDRTS is input to the user field of the SCM transmitted after the call setup between the portable mobile terminal 10 and the base station 20 is made and transmitted to the portable mobile terminal 10.

The reference transmission rate is calculated by equation (2).

Decimal value of reference speed x 4-bit combination

In Equation 2, the reference speed is a value set to determine the communication quality, and the setting may vary according to the environment of the wireless network. For example, the reference speed may be set to 10Kbps, or may be set differently to 1Kbps when the wireless communication environment such as island area and mountain area is poor.

On the other hand, the decimal value of the 4-bit combination can represent the 16-class reference transmission rate as a binary combination of '0000' to '1111'. In other words, when the reference speed is set to 20Kbps, the combination of four bits '0000' may mean 0Kbps and '1111' may indicate about 300Kbps. Alternatively, unlike Equation 1, '0000' may be set to 10kbps and '0001' to 11Kpbs.

Table 3 is a table showing the reference transmission rate when the reference rate is set to 10Kbps and 20Kbps, respectively.

 4-bit combination Reference baud rate  4-bit combination Reference baud rate Reference speed 10Kbps Reference speed 20Kbps Reference speed 10Kbps Reference speed 20Kbps 0000 0 Kbps 0 Kbps 1000 80 Kbps 160 Kbps 0001 10 Kbps 20 kbps 1001 90 Kbps 180 Kbps 0010 20 kbps 40 Kbps 1010 100 kbps 100 kbps 0011 30 Kbps 60 Kbps 1011 110 Kbps 220 Kbps 0100 40 Kbps 80 Kbps 1100 120 Kbps 240 Kbps 0101 50 Kbps 100 kbps 1101 130 Kbps 260 Kbps 0110 60 Kbps 120 Kbps 1110 140 Kbps 280 Kbps 0111 70 Kbps 140 Kbps 1111 150 kbps 300 Kbps

For example, when the reference rate is set to 20Kbps, if the reference transmission rate of the mobile communication system 100 is 20Kbps, the MSC enters '0001' in the user field of the SCM and transmits it to the mobile terminal 10. . The receiving unit 120 of the portable mobile terminal 10 receives '0001' and provides it to the control unit 130, and the control unit 130 calculates a reference transmission rate by using Equation 2. Alternatively, the reference transmission rate data as shown in Table 3 may be stored in the memory 140, and the control unit 130 may read a value corresponding to '0001'. In this way, the reference transmission rate set in the mobile communication system 100 is transmitted to the portable mobile terminal 10.

As mentioned above, the present invention can be implemented in a 1x EV system, and the embodiments of the present invention have been found to be 1x EV-DV and 1x EV-DO. In the case of 1x EV-DV, since the F-PDCH supports a maximum transmission rate of 3.0912 Mbps, the above-described reference rate may be set so that the reference transmission rate is within a range not exceeding the maximum 3.0912 Mbps. In addition, when the maximum value of the reference transmission rate is changed by future technology development, the reference speed may be set within the corresponding range.

The reference transmission rate thus calculated is used to calculate MDRTO and MDRTS.

Equation 3 is an equation defined to calculate MDRTO and MDRTS.

4-bit combination of decimal values × reference transfer rate

The reference transmission rate is a value calculated by equation (2). On the other hand, the decimal value of the 4-bit combination may represent a 16-level reference transmission rate as a binary combination of '0000' to '1111'.

When the reference transmission rate calculated by the controller 130 is 20Kbps, if the 4-bit combination of MDRTS is '0011', it becomes 3 × 20Kbps by Equation 3, and the MDRTS becomes 60Kbps. In the same way, if the 4-bit combination of MDRTO is '0101', it becomes 5 x 20 Kbps and the MDRTO is 100 Kbps. In this case, each of four bits of MDRTS and MDRTO, which is created and transmitted by the MSC, may have a different value. If the MDRTO and the MDRTS are different, the larger value of the MDRTO and the MDRTS is compared with the data reception rate measured in the target pilot (S240).

If the data reception rate is less than MDRTO or MDRTS compared to the MDRTO or MDRTS, the controller 130 determines whether the received data error rate from the current cell is greater than the reference error rate (S250).

Meanwhile, the controller 130 of the portable mobile terminal 10 calculates an error rate of data received from the current cell. (S250) When the error rate is calculated, the controller 130 calculates the error rate and the reference transmitted by the SCM. The error rate is compared to determine whether the calculated error rate is greater than the reference error rate.

On the other hand, if the data reception rate is more than MDRTO or MDRTS, the mobile mobile terminal searches for a new pilot (S220).

By comparing the calculated error rate and the reference error rate, if the calculated error rate is greater than the reference error rate, the controller 130 determines whether the target cell is the same as the previous cell (S260).

In order to determine whether the target cell and the previous cell are the same, the previous cell value stored in the memory 140 is used. It is determined whether the PEN offset transmitted from the target cell is the same as the value of the previous cell stored in the memory 140 (S260).

If it is determined whether the target cell and the previous cell are the same, if the target cell and the previous cell are the same, the controller 130 determines whether the specified delay time has elapsed since the cell switching in the previous cell (S270).

On the other hand, if it is determined whether the target cell is identical to the current cell, and if the target cell and the previous cell are not the same, the controller 130 terminates the connection with the current cell and simultaneously performs cell switching on the target cell. In this case, when the switching period ends, the PEN offset value of the current cell is stored in the memory 140 of the previous cell, and the PEN offset value of the target cell is stored in the memory 140 of the current cell. And switching is completed (S280). After completion of the cell switching, the terminal 10 searches for a new pilot again (S220).

It is determined whether a specified delay time has elapsed after the cell switching in the previous cell. If the specified delay time has elapsed, the controller 130 terminates the connection with the current cell and performs cell switching for the target cell. In this case, when the switching period ends, the PEN offset value of the current cell is stored in the memory 140 of the previous cell and the PEN offset value of the target cell is stored in the memory 140 of the current cell. After the cell switching is completed, the terminal 10 re-searches for a new pilot (S220).

According to the above-described method, the mobile mobile terminal selects a target cell to be subjected to cell switching and determines the timing and method of cell switching, thereby achieving effective cell switching.

As described above, the portable mobile terminal and its cell switching method and system according to the present invention define or write auto message support and auto message internal which are dummy fields which are not previously utilized in the extended system parameter message. . Therefore, since it maintains compatibility with the second generation mobile communication such as IS-95, the existing vast infrastructure can be used as it is.                     

In addition, the portable mobile terminal and its cell switching method and system according to the present invention provide a method for selecting a target pilot and a cell switching time and method for each quality of service during the cell switching operation, and eliminate unnecessary cell switching. It realizes fast and accurate cell switching.

As a result, it is possible to optimize the target pilot selection and the switching timing and method of the target pilot of the portable mobile terminal by excluding the deterioration factors of the mobile communication such as the ping pong phenomenon. Furthermore, through optimized cell switching, the mobile mobile terminal and the cell switching method and apparatus thereof according to the present invention can optimize data services even in a mobile mobile terminal which is greatly affected by performance according to the delay and accuracy of cell switching.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be determined in particular by the claims.

Claims (29)

A mobile mobile terminal for selecting a target cell and switching to a selected target cell, A receiver configured to receive an extended system parameter message including a reference pilot strength for comparing the pilot strength of the target cell to a dummy bit region and a pilot message of the target cell; A memory for storing a value of a current cell, a cell value before cell switching to a current cell, and storing the extended system parameter message; The pilot strength of the target cell is determined using the extended system parameter message. When the target pilot strength is greater than the reference pilot strength, an error rate of data received in the current cell is calculated. Rediscovering a new pilot and comparing the calculated error rate with a predetermined reference error rate, if the calculated error rate is greater than the reference error rate, determining whether the target cell is equal to the previous cell value stored in the memory. If it is less than the reference error rate, the new pilot is searched again. If the value of the target cell is the same as the value of the previous cell, it is determined whether a specified delay time has elapsed after switching to the current cell and the value of the target cell is determined. If not equal to the value of the previous cell, from the current cell to the target cell If it is determined that the switching, and that the delay time has elapsed if it is determined in the current cell with a target cell, and the cell switching the delay time below, and a control unit for controlling so as to re-search for a new pilot; The control unit stores the reference error rate in the memory. The method of claim 1, The dummy bit area of the extended system parameter message is And a 3-bit data area capable of writing the reference pilot strength data. The method of claim 2, The dummy bit area of the extended system parameter message is And a 1-bit command data area instructing to activate the dummy bit area of the extended system parameter message. delete delete delete delete The method of claim 1, The control unit, When controlling cell switching from the current cell to the target cell, storing the value of the current cell as the value of the new previous cell and storing the value of the target cell as the value of the new current cell in the memory. Mobile mobile terminal. A mobile mobile terminal for selecting a target cell and switching to a selected target cell, A receiver configured to receive an extended system parameter message including a reference pilot strength for comparing the pilot strength of the target cell to a dummy bit region and a message of the target pilot; A memory for storing a value of a current cell, a cell value before cell switching to a current cell, and storing the extended system parameter message; A memory for storing a value of a current cell, a cell value before cell switching to a current cell, and storing the extended system parameter message; The pilot strength of the target cell is determined using the extended system parameter message. If the strength of the target pilot is greater than the reference pilot strength, the data transmission rate received from the current cell, the lowest transmission rate for each current service option, and the subscriber are determined. Compare to the target rate of at least one of the lowest transmission rate of each star and re-search for a new pilot when it is less than the reference pilot strength, and if the data transmission rate of the current cell is less than the target rate, The error rate is calculated and the new pilot is searched again if it is larger than the target speed, and the calculated error rate is compared with a predetermined reference error rate. When the calculated error rate is larger than the reference error rate, the value of the target cell and the previous cell stored in the memory are calculated. Judge whether the values are equal If the error rate is less than the quasi-error rate, the new pilot is searched again. If the value of the target cell is the same as the value of the previous cell, it is determined whether a specified delay time has elapsed after switching to the current cell. If it is not equal to the value of the previous cell, the cell is switched from the current cell to the target cell, and if it is determined that the delay time has elapsed, the cell is switched from the current cell to the target cell and if it is determined that the delay time is less than a new pilot is performed. A control unit for controlling rescanning; The control unit stores the reference error rate in the memory. A cell switching method of a mobile mobile terminal for selecting a target cell and switching to a selected target cell, Receiving an extended system parameter message including a reference pilot strength for comparing the pilot strength of the target cell to a dummy bit region and a message of the target pilot; Storing a value of a current cell, a cell value before cell switching to a current cell, and storing the extended system parameter message in a memory; The pilot strength of the target cell is determined using the extended system parameter message. When the target pilot strength is greater than the reference pilot strength, an error rate of data received in the current cell is calculated. Rediscovering a new pilot; Comparing the calculated error rate with a predetermined reference error rate, if the calculated error rate is greater than the reference error rate, it is determined whether the value of the target cell is equal to the previous cell value stored in the memory. Rescanning; If the value of the target cell is equal to the value of the previous cell, it is determined whether a specified delay time has elapsed after switching to the current cell, and if the value of the target cell is not equal to the value of the previous cell, Cell switching to the target cell; And switching the cell from the current cell to the target cell if it is determined that the delay time has elapsed, and re-searching for a new pilot if it is determined that the delay time is less than the delay time. The method of claim 10, The dummy bit area of the extended system parameter message is And a 3-bit data area in which the reference pilot strength data can be written. The method of claim 11, The dummy bit area of the extended system parameter message is And a 1-bit command data area instructing to activate the dummy bit area of the extended system parameter message. delete delete delete delete The method of claim 10, In cell switching from the current cell to the target cell, And storing the value of the current cell as the value of the new previous cell in the memory and the value of the target cell as the value of the new current cell in the memory. A cell switching method of a mobile mobile terminal for selecting a target cell and switching to a selected target cell, Receiving an extended system parameter message including a reference pilot strength for comparing the pilot strength of the target cell to a dummy bit region and a message of the target pilot; Storing a value of a current cell, a cell value before cell switching to a current cell, and storing the extended system parameter message in a memory; The pilot strength of the target cell is determined using the extended system parameter message. If the strength of the target pilot is greater than the reference pilot strength, the data transmission rate received from the current cell, the lowest transmission rate for each current service option, and the subscriber are determined. Comparing the target rate of at least one of the lowest transmission rates and re-discovering a new pilot when the reference pilot strength is less than the reference pilot strength; Calculating an error rate of data received in the current cell if the data rate of the current cell is less than the target rate and re-searching for a new pilot if the data rate is greater than the target rate; Comparing the calculated error rate with a predetermined reference error rate, if the calculated error rate is greater than the reference error rate, it is determined whether the value of the target cell is equal to the previous cell value stored in the memory. Rescanning; If the value of the target cell is equal to the value of the previous cell, it is determined whether a specified delay time has elapsed after switching to the current cell, and if the value of the target cell is not equal to the value of the previous cell, Cell switching to the target cell; And switching the cell from the current cell to the target cell if it is determined that the delay time has elapsed, and re-searching for a new pilot if it is determined that the delay time is less than the delay time. A cell switching system of a mobile mobile terminal for selecting a target cell and switching to a selected target cell, A base station and a base station control station for creating an extended system parameter message including a reference pilot strength for comparing pilot strengths of the target cells in a dummy bit region and transmitting the same to a portable mobile terminal; Store the value of the current cell, store the cell value before cell switching to the current cell, store the extended system parameter message, and use the extended system parameter message to determine the pilot strength of the target cell. If it is determined that the intensity of the target pilot is greater than the reference pilot intensity, the error rate of the data received in the current cell is calculated. If the intensity of the target pilot is less than the reference pilot intensity, the new pilot is searched again, and the calculated error rate and the predetermined reference error rate are calculated. In comparison, if the calculated error rate is greater than the reference error rate, it is determined whether the value of the target cell is equal to the previous cell value stored in the memory. If the calculated error rate is less than the reference error rate, a new pilot is searched again and the value of the target cell is determined. Is equal to the value of the previous cell after cell switching to the current cell. If it is determined whether a specified delay time has elapsed and the value of the target cell is not the same as the value of the previous cell, the cell is switched from the current cell to the target cell. And a mobile mobile terminal for re-discovering a new pilot if the cell is switched to a cell and the delay time is determined to be low. The method of claim 19, The dummy bit area of the extended system parameter message is And a 3-bit data area capable of writing the reference pilot strength data. The method of claim 20, The dummy bit area of the extended system parameter message is And a 1-bit command data area instructing to activate the dummy bit area of the extended system parameter message. The method of claim 19, The portable mobile terminal, Receiving a service connection message including the lowest transmission rate for each current service option and the lowest transmission rate for each subscriber, from the target cell; And a decimal value based on the bit combination of the lowest transmission rate for each current service option and a decimal value based on the bit combination of the lowest transmission rate for each subscriber. The method of claim 19, The portable mobile terminal, Receiving a service connection message including the lowest transmission rate for each current service option and the lowest transmission rate for each subscriber, from the target cell; And a decimal value based on a bit combination of the lowest transmission rate for each current service option and a decimal value based on a bit combination of the lowest transmission rate for each subscriber. 2. delete delete delete delete The method of claim 19, The portable mobile terminal, When controlling cell switching from the current cell to the target cell, storing the value of the current cell as the value of the new previous cell and storing the value of the target cell as the value of the new current cell in the memory. Cell switching system of a mobile mobile terminal. A cell switching system of a mobile mobile terminal for selecting a target cell and switching to a selected target cell, A base station and a base station control station for creating an extended system parameter message including a reference pilot strength for comparing pilot strengths of the target cells in a dummy bit region and transmitting the same to a portable mobile terminal; The pilot strength of the target cell is determined using the extended system parameter message. If the strength of the target pilot is greater than the reference pilot strength, the data transmission rate received from the current cell, the lowest transmission rate for each current service option, and the subscriber are determined. Compare to the target rate of at least one of the lowest transmission rate of each star and re-search for a new pilot when it is less than the reference pilot strength, and if the data transmission rate of the current cell is less than the target rate, The error rate is calculated and the new pilot is searched again if it is larger than the target speed, and the calculated error rate is compared with a predetermined reference error rate. When the calculated error rate is larger than the reference error rate, the value of the target cell and the previous cell stored in the memory are calculated. Judge whether the values are equal If the error rate is less than the quasi-error rate, the new pilot is searched again. If the value of the target cell is the same as the value of the previous cell, it is determined whether a specified delay time has elapsed after switching to the current cell. If it is not equal to the value of the previous cell, the cell is switched from the current cell to the target cell, and if it is determined that the delay time has elapsed, the cell is switched from the current cell to the target cell and if it is determined that the delay time is less than a new pilot is performed. A cell switching system of a mobile mobile terminal, comprising: a mobile mobile terminal for rescanning.

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