JP2002164838A - Mobile communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mobile communication system which is able to use effectively a power supply which is mounted on a portable terminal by prioritizing a communication quality or connecting time in response to the request of a user. SOLUTION: This mobile communication system which has a power level detection part within a mobile terminal and decides a data transmission rate by coupling with a power level which is detected by the power level detection part and a predetermined threshold and a user set power supply use setting information and when the decided data transmission rate differs from the currently applied rate, directs to change the data transmission rate between the base station and the mobile terminal.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication system, and more particularly, to a mobile communication system capable of switching a transmission rate when performing data communication.

[0002]

2. Description of the Related Art The spread and development of mobile communication has been remarkable, and the era has been reached in which everyone uses mobile communication such as mobile phones on a very daily basis. The next-generation mobile phone is expected to be a third-generation mobile communication system following the currently popular digital mobile phone (second generation), and has a higher data transmission capacity than the current general mobile phone. It is expected that the transmission and reception of moving images using mobile terminals and the large-capacity data distribution service will be in full swing in the future.

[0003] In the next generation of mobile phones, at the beginning of introduction, a data transmission speed of 15 to 40 times that of the current mobile phone (9600 bits per second) has been realized, and in the future, high-speed communication of 2 megabits per second exceeding 200 times will be possible. It will also be able to transmit TV-like moving images. The standards for this next generation of mobile phones are described in the Association of Radio Industriesan
d Businesses (ARIB) Standard, STD-T63 Ver.1.00
(IMT-2000DS-CDMA System) (March 2, 2000).

FIG. 5 shows a configuration of a mobile phone in a conventional mobile communication system. A mobile phone in a mobile communication system includes a terminal interface unit, a control unit, a baseband signal processing unit, a radio unit, a transmission / reception amplification unit, an antenna, and a power supply unit.

[0005] The terminal interface unit has a voice CODE.
It has an adapter function for C and data, and has an interface function with a handset and an external data terminal.
The control unit has a wireless control function of transmitting and receiving control signals. The baseband signal processing unit is a base for error correction coding, framing, data modulation, spreading modulation, and despreading of received signals, chip synchronization, error correction decoding, data demultiplexing, diversity handover combining functions, etc. Perform band signal processing.

[0006] The radio unit performs D / A conversion of the baseband spread transmission signal and converts it into an RF signal by quadrature modulation.
The signal received from the receiving amplifier is quasi-synchronously detected, A / D converted, and transmitted to the baseband unit. The transmitting / receiving amplifying unit is configured to transmit R
Equipped with a transmission amplifier for amplifying the F signal and a low noise amplifier for amplifying the received RF signal, the RF transmission signal and the RF reception signal are separated and multiplexed, and connected to an antenna. The antenna transmits the uplink RF signal amplified by the transmission amplifier, receives the downlink RF signal from the base station, and connects to the transmission / reception amplifier.
The power supply unit supplies power to each unit.

This mobile communication system is described in NEC
This is discussed on pages 9 to 15 of Technical Report Vol. 51, No. 7 (1998). Here, as a communication method, W-CDMA (Wide band Code Division Multiple) is used.
iple Access) method.

[0008]

In a baseband signal processing section of a wireless communication device such as a portable terminal in a mobile communication system, a channel number, a channel type, a spreading ratio or a transmission rate, a multiplex (multicode) number, a RAKE path selection. The number, the number of selected antennas, and the like are used as parameters, and values are set to the respective parameters by an instruction from a control unit in the wireless communication device or a setting in the baseband signal processing unit hardware. Alternatively, some of these parameters have been determined from the beginning as hardware specifications. To perform high-speed data transmission,
It is necessary to set, at the set values of these parameters, values that enable high-speed data communication, and communication at a transmission speed according to the values becomes possible.

However, when high-speed data transmission is performed, power consumption is expected to increase because the amount of hardware operation increases as compared with communication at a low transmission rate. This tendency becomes more pronounced as the data transmission speed increases. On the other hand, in order to enjoy moving image transmission with a portable mobile terminal, it is desired that as much data transmission as possible can be performed with a limited power supply. For this reason, low power consumption is an essential issue for mobile terminals in mobile communication systems.

An object of the present invention is to determine a data transmission speed between a base station and a portable terminal according to a remaining power supply and a user request, thereby enabling a mobile terminal to effectively use a power supply mounted on the portable terminal. A communication system is provided.

[0011]

In order to achieve the above object, a mobile communication system according to the present invention has a power supply level detection unit in a control unit in a portable terminal or as an independent block, and the power supply level is detected by the power supply level detection unit. The data transmission rate is determined in consideration of the determined remaining power level, a preset threshold value, a user request, and the like, and the data transmission rate is switched between the base station and the mobile terminal as necessary. Is designated.

[0012]

FIG. 1 shows the configuration of a portable terminal in a mobile communication system according to one embodiment of the present invention. The mobile terminal according to the present embodiment includes a terminal interface unit 11, a control unit 12, a baseband signal processing unit 13, a radio unit 14, a transmission / reception amplification unit 15, an antenna 16, and a power supply unit 17. Further, the control unit 12 has a power supply level detection unit 18,
The power level detector 18 detects the remaining power level in the power section 17.

When the power level detection unit 18 detects the remaining power level, the control unit 12 determines the detected power remaining level, a preset threshold value, and a power usage setting set by the user. Capture information and determine data transmission speed. If the determined data transmission rate is different from the current data transmission rate, the control unit 12 instructs the baseband processing unit 13 to change the setting of various parameters so as to perform communication at the determined data transmission rate. put out.

The present embodiment is characterized in that the remaining power level detected by the power level detecting unit 18 in the control unit 12, a preset threshold value, and power use setting information set by the user in advance are stored. It is to determine the data transmission speed in consideration of the above and switch the data transmission speed. Thereby, it is possible to effectively use the power supply according to the user's needs.

For example, when a moving image is transmitted between a base station and a portable terminal, and when the user sets the connection time to be prioritized, the control unit reduces the data transmission speed to provide the portable terminal with the portable terminal. It is possible to lengthen the connection time with the base station until the remaining power is exhausted in the mounted power supply.

When the user sets the transmission speed or the communication quality to be higher, the data transmission speed remains unchanged even if it is detected that the remaining power level has become equal to or less than a predetermined threshold value. By doing so, communication can be performed until the power is turned off while maintaining the image quality. Further, in this embodiment, since the power supply level detection unit 18 is provided in the control unit 12, control information such as power supply level monitoring information and power supply use setting information can be handled collectively by the control unit 12, and various kinds of information can be handled. Control can be performed efficiently.

Hereinafter, a specific example will be described. A mobile communication system having a configuration as shown in FIG.
Video transmission is performed at bps. In the mobile communication system, the downlink transmission speed from the base station to the mobile terminal is 16 kbps, 32 kbps, 64 kbps, 1
28 kbps, 256 kbps, 512 kbps, 1.
It is assumed that eight types of switching of 024 Mbps and 2.048 Mbps are possible.

Here, the power supply level detector 18 of the portable terminal
Suppose that it is detected that the remaining power level is equal to or lower than the threshold. When the control unit 12 receives this detection result,
First, the power use setting information set by the user in advance is referred to. After referring to this power usage setting information,
The control unit determines an appropriate data transmission rate. For example, if the user sets the connection time in the power usage setting information by the user, the control unit 12 sets the transmission rate of data received from the adjacent base station to the baseband processing unit 13 to, for example, 1.024 Mbps. An instruction to change various parameter settings is issued to reduce the number. As a result, in the portable terminal, although the image quality is reduced, the connection time with the adjacent base station due to the remaining power can be made longer than in the case where the data transmission speed is not reduced.

On the other hand, when the transmission speed or the communication quality is set to be prioritized, the control unit 12 controls the baseband processing unit 1
No change is made to the data transmission rate for No. 3, and communication is continued at the current data transmission rate of 2.048 Mbps. In this case, the image quality does not deteriorate, but the connection time with the adjacent base station due to the remaining power is shorter than in the case where the connection time is prioritized.

FIG. 2 shows the remaining power and connection time in the portable terminal of the mobile communication system according to the present invention. In the figure, the solid line indicates the case where the user has set the transmission speed to be prioritized, and the dashed line indicates the case where the user has set the connection time prioritized.

At the same time as the communication is started, the remaining power supply decreases in accordance with the data transmission speed. When the remaining power level becomes equal to or less than the threshold, if the user sets the data transmission speed as priority as the power usage setting information, the remaining connection time of the mobile terminal is determined by the power supply according to the current data transmission speed. The time from the decrease in the remaining amount to the time predicted by linear extrapolation in advance (communication end (1) in FIG. 2).
If there is no call disconnection instruction by the user before that, the call disconnection during communication is forcibly performed due to power-off. In the system, when a forced disconnection due to power-off is performed, the portable terminal user is notified of the fact in advance, and then a call disconnection operation is performed.

On the other hand, when a setting is made to give priority to the connection time, an instruction to reduce the data transmission speed is issued from the control unit 12, so that the connection time is indicated by a one-dot chain line as compared with the case where the transmission speed is prioritized. It becomes longer as shown (communication end (2) in FIG. 2).

As described above, the data transmission speed is determined and changed based on the remaining power level and the power usage setting information, so that, for example, when the user wants to give priority to the connection time, the remaining power in the power supply installed in the portable terminal is changed. It is possible to lengthen the connection time with the base station until the connection is cut off. When the user wants to prioritize the transmission speed, communication can be performed until the power is turned off while maintaining the image quality. As described above, according to the present invention, it is possible to effectively use a power supply according to user needs in a portable terminal.

When the control unit determines the data transmission rate, the control unit determines the data transmission rate in addition to the power use setting information set by the user.
The data transmission rate may be determined in consideration of the following information.

For example, suppose packet communication in a mobile communication system. Here, it is considered that the downlink data transmission speed is adjusted on the base station side in accordance with the degree of user congestion and the communication quality between the base station and the mobile terminal. Hereinafter, an example of adjusting the data transmission rate based on the communication quality between the base station and the portable terminal will be described.

In a mobile communication system, a base station constantly grasps the communication quality of a mobile terminal based on an uplink signal from the mobile terminal. Here, for a mobile terminal determined to have low interference and high communication quality, data transmission is performed by increasing the downlink transmission speed from the base station to the mobile terminal,
An instruction is issued from the base station to the portable terminal. Conversely, for a mobile terminal having a lot of interference and a low communication quality, the base station issues an instruction to the mobile terminal to lower the downlink data transmission rate in order to ensure error resilience in the mobile terminal.

The control unit 12 of the portable terminal fetches the instruction from the base station as described above and the power use setting information set by the user in advance, and if it is determined that it is desirable to increase the data transmission speed, It instructs the band processing unit 13 to increase the data transmission speed.
Alternatively, when it is determined that it is desirable to reduce the data transmission rate, the baseband processing unit 13 is instructed to reduce the data transmission rate. Furthermore, when it is detected that the remaining power level has fallen below the threshold value, the data transmission speed is reviewed again.

FIG. 3 shows an example of a method of determining the data transmission speed in the control section 12 of the portable terminal. When receiving the instruction to change the downlink transmission rate from the base station, the control unit 12 of the mobile terminal refers to the transmission rate indicated by the base station. Furthermore, referring to the power usage setting information set in advance by the user,
Determine the data transmission rate. When the determined data transmission rate does not match the data transmission rate currently being communicated, the control unit 12 instructs the baseband signal processing unit 13 to change various parameters to change the transmission rate.

When the power level detector 18 reports that the remaining power level has fallen below the threshold value, the controller 12 refers to the power usage setting information by the user and determines the data transmission rate. . If the determined data transmission rate does not match the data transmission rate currently being communicated, the control unit 12 issues an instruction to the baseband signal processing unit 13 to change various parameters for changing the transmission rate. . In addition, the base station is notified of the data transmission rate determined by the control unit 12 of the mobile terminal.

Here, when determining the data transmission rate, the instruction from the base station may be given priority, or the power use setting information by the user may be given priority. Alternatively, both of them may be weighted by a certain ratio and determined.
Further, other information may be combined and determined. In particular, in packet communication, the data transmission speed is determined so that the product of the connection time until the power is turned off and the data transmission speed is maximized.

Here, the threshold value of the remaining power level is
This is a value preset in the system, and a different threshold value setting may be provided for each data transmission rate being applied. Further, a plurality of thresholds may be set. Further, the threshold value may be changed during communication according to a system or user instruction.

The detection of the remaining power level may be performed by a circuit provided around the power supply unit 17. The cycle of detecting the remaining power level may be a constant cycle or may be changed according to the degree of level change. For example, when the amount of work in each unit such as the control unit other than the baseband signal processing unit 13, the terminal interface unit 11, and the power supply level detection unit 18 is small, the detection of the remaining power supply level is performed irregularly within a certain range. May go. Further, regardless of whether the remaining power level is equal to or less than the threshold value, the data transmission rate may be determined based on power usage setting information appropriately set by the user, taking into account the needs of the user.

Further, in the mobile communication system according to the present invention, the charging for the user may be changed according to the data transmission speed between the base station and the portable terminal determined by the control unit 12 of the portable terminal. For example, for a user who gives priority to the connection time and whose data transmission speed or communication quality may be relatively low, the collection amount per time or data amount is set low. Conversely, for a user who always gives priority to the data transmission speed or the communication quality, the collection amount is set higher.

FIG. 4 shows a configuration of a portable terminal in a mobile communication system according to another embodiment of the present invention. As in the embodiment shown in FIG. 1, the mobile terminal includes a terminal interface unit 41, a control unit 42, a baseband signal processing unit 4
3, a radio section 44, a transmission / reception amplification section 45, an antenna 46, and a power supply section 47. In the present embodiment, a power supply level detecting section 48 for detecting a remaining power level in the power supply section 47.
Exist outside the control unit 42.

The remaining power level detected by the power level detecting section 48 is notified to the control section 42. Upon receiving the notification of the remaining power level, the control unit 42 fetches a preset threshold value and power use setting information set by the user, and determines a data transmission speed. If the determined data transmission rate is different from the current data transmission rate, the control unit 42 sets the baseband processing unit 43 for various parameters so as to perform communication at the determined data transmission rate. Give instructions for change.

Here, the power supply level detector 48 is connected to the controller 4
2, the control unit 42 reduces the load of power supply level monitoring, and the power supply level detection unit 48 can perform independent and efficient power supply level monitoring. Even in such a case, the data transmission rate is determined in consideration of the remaining power level detected by the power level detection unit 18, a preset threshold value, and power usage setting information set by the user. Therefore, it is possible to use the power effectively according to the user's needs.

The present invention can also be applied to communication using a coding system other than the CDMA system, for example, a TDMA system. In any case, the mobile communication system of the present invention determines the data transmission rate in consideration of the user needs based on the remaining power level and the power usage setting information, so that the power can be effectively used according to the needs. Can be.

[0038]

According to the present invention, the data transmission speed is determined / changed based on the remaining power level and the power use setting information. For example, when the user wants to give priority to the connection time, the data transmission speed is mounted on the portable terminal. It is possible to lengthen the connection time with the base station until the power is exhausted in the power supply. If the user wants to prioritize the transmission speed, communication can be performed until the power is turned off while maintaining the image quality or the communication quality. In this way, the portable terminal can use the power effectively according to the user's needs.

[Brief description of the drawings]

FIG. 1 is a block diagram showing the configuration of a portable terminal according to one embodiment of the present invention.

FIG. 2 is a diagram showing the relationship between the remaining power and the connection time in the portable terminal according to one embodiment of the present invention.

FIG. 3 is a flowchart illustrating an example of a data transmission rate determining method according to an embodiment of the present invention.

FIG. 4 is a block diagram showing a configuration of a mobile terminal according to one embodiment of the present invention.

FIG. 5 is a block diagram showing a configuration of a mobile phone in a conventional system.

[Explanation of symbols]

11 terminal interface unit, 12 control unit, 13 baseband signal processing unit, 14 radio unit, 15 transmission / reception amplification unit, 16 antenna, 17 power supply unit, 18 power supply level detection unit.

Claims (17)

[Claims] A portable terminal has a power level detection unit, and refers to a remaining power level detected by the power level detection unit and a preset threshold value to re-establish a data transmission rate. A mobile communication system, comprising: determining a data transmission rate if the determined data transmission rate is different from a data transmission rate currently being communicated; 2. The mobile communication system according to claim 1, wherein when re-determining the data transmission rate, power usage setting information set by a user is referred to. 3. The mobile communication system according to claim 2, wherein the power usage setting information includes setting information that prioritizes connection time. 4. The mobile communication system according to claim 2, wherein the power use setting information includes setting information for giving priority to a data transmission rate. 5. The mobile communication system according to claim 2, wherein the power use setting information includes setting information for giving priority to communication quality. 6. The mobile communication system according to claim 1, wherein the power supply level detection unit is provided in a control unit of the portable terminal. 7. The mobile communication system according to claim 1, wherein the power level detection unit is provided outside the control unit of the portable terminal. 8. The mobile communication system according to claim 1, wherein the mobile communication system has a plurality of threshold values of the remaining power level. 9. The mobile communication system according to claim 1, wherein the threshold value of the remaining power level can be changed during communication. 10. A data transmission rate is determined based on power supply use setting information set by a user. If the determined data transmission rate is different from the data transmission rate currently being communicated, the data transmission rate is changed. Mobile communication system characterized by performing. 11. The mobile communication system according to claim 2, wherein the data transmission speed is reduced when the user sets the power use setting information to prioritize the connection time. Communications system. 12. The mobile communication system according to claim 2, wherein when the user sets the data transmission speed in the power usage setting information, the data transmission speed is not increased or changed. Mobile communication system. 13. The mobile communication system according to claim 2, wherein the data transmission rate is not increased or changed when the user sets the power use setting information to prioritize communication quality. Mobile communication system. 14. The mobile communication system according to claim 2, wherein a user can appropriately change the power use setting information. 15. In the mobile communication system according to any one of claims 1 to 14, when an instruction to change the data transmission rate is issued from a base station, the information of the data transmission rate specified by the base station is also referred to, and A mobile communication system for redetermining a transmission rate. 16. In the mobile communication system according to any one of claims 1 to 15, when forced disconnection is performed due to power-off, a notification to that effect is given to a portable terminal in advance, and then a call disconnection operation is performed. A mobile communication system, comprising: 17. The mobile communication system according to claim 1, wherein charging for a user is changed according to a data transmission rate.