JP2004320208A - Mobile terminal power / output control method and system - Google Patents

Abstract

A mobile terminal can be automatically switched to a manner mode in a public vehicle.
A mobile terminal positioning unit detects a terminal position of a mobile terminal or GPS reception from base station information created by a base station information processing unit using base station identification signals of peripheral base stations. The terminal position is measured using the device 12, and the moving speed of the portable terminal 1 is separately obtained by the moving speed analysis unit 7. In the power control device 4 connected to the carrier network 3, the route position of the public vehicle is stored in the route position storage unit 10 in advance, and the terminal position of the mobile terminal 1 having a high moving speed is determined by the transmission / reception control unit 8. The mobile terminal 1 is notified while the line position coincides with the route position in the storage unit 10 and switched to the manner mode in the public vehicle.
[Selection diagram] Fig. 1

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mobile terminal power / output control method and system for automatically performing predetermined control of at least one of power consumption and transmission output of a mobile terminal according to a moving speed, and particularly to a communication business. The mobile terminal is connected via a base station on one side of the user network and the power output control device of the mobile terminal is connected on the other side to automatically suppress the power consumption and / or transmission output of the mobile terminal in a public vehicle. The present invention relates to a power / output control method and system for a portable terminal that can be controlled.
[0002]
[Prior art]
2. Description of the Related Art In recent years, portable terminals, such as PHS (Personal Handy Phone System), which have become very popular in recent years, cannot be used when traveling by train, bus, or the like because communication becomes impossible. In such a case, there is a PHS that can turn off the power switch to save power during movement when the vehicle is clearly moving, for example, as a result of positioning using a GPS (Global Positioning System) receiver (for example, Patent Document 1).
[0003]
On the other hand, since mobile phones are often usable even while traveling, there is a concern about accidents caused by using mobile phones while driving a car or the like. For this reason, it is conceivable to control the power switch to be turned off while the mobile phone is moving. However, since the mobile phone can be used even while moving, it is often necessary to keep the mobile phone in a usable state only while moving, and it is not always appropriate to apply the above-described method to the mobile phone.
[0004]
Conventionally, in order to solve the above-mentioned problem, this kind of power / output control method of a portable terminal measures a moving speed from a position on a map of the portable terminal obtained by a GPS receiver, and responds to the speed. In some cases, a power switch of a mobile terminal or an operation mode of a mobile phone is automatically switched (for example, see Patent Document 2).
[0005]
For example, in the case of the mobile terminal shown in FIG. 13, the GPS receiver 101 receives GPS radio waves transmitted from a plurality of GPS satellites, measures a plurality of positions while the mobile terminal is moving, and measures the data. Can be recorded with time. The moving speed calculation unit 102 can calculate the moving speed of the mobile terminal from a plurality of terminal positions and their times. The speed determination unit 103 holds one threshold speed, and notifies the control unit 104 when the moving speed of the mobile terminal received from the moving speed calculation unit 102 exceeds the threshold speed.
[0006]
The control unit 104 opens the power switch 106 after a certain period of time if a call is in progress when receiving this notification, cuts off the power supply from the power source 107 to the mobile phone 105, and disconnects the call state.
[0007]
Patent Literature 2 proposes not only opening and closing of a power switch but also automatic switching of the mobile terminal to a drive mode, an answering machine mode, a data transmission / reception mode, a manner mode, and the like, depending on a moving speed of the mobile terminal.
[0008]
[Patent Document 1]
JP-A-11-112411 (FIGS. 1 and 2)
[0009]
[Patent Document 2]
JP 2001-127848 A (FIGS. 1 and 2)
[0010]
[Problems to be solved by the invention]
The above-described conventional power / output control method and system for a portable terminal have the following problems.
[0011]
2. Description of the Related Art In recent years, with the spread of mobile terminals, manners of mobile terminal holders have become a problem. That is, in a crowded public vehicle, there is a loud sound caused by a ringtone or conversation, or an electromagnetic interference from a portable terminal to a neighbor.
[0012]
Therefore, in public vehicles, announcements to prevent inconvenience to others have called for power-off and non-use of portable terminals. However, the result is left to the manners of the mobile terminal owner.
[0013]
In a vehicle that is so crowded that it cannot move, it is not possible to turn off the power even if it is desired to turn off the power.
[0014]
An object of the present invention is to solve such a problem and to provide a power / output control method and a system for a mobile terminal capable of automatically switching the mobile terminal to a manner mode while riding in a public vehicle. That is.
[0015]
[Means for Solving the Problems]
A power / output control method for a mobile terminal according to the present invention calculates a moving speed and a terminal position of a mobile terminal connected to a carrier network via a base station, and preliminarily marks up a route position of a public vehicle on a map. The mobile terminal is determined to be in a public vehicle while the terminal position of the calculation result is matched with the line position on the map, and the mobile terminal automatically determines the manner mode. Has been switched to.
[0016]
Therefore, the mobile terminal can automatically switch to the manner mode while riding in a public vehicle.
The terminal position of the portable terminal can be calculated by an identification signal received from a communicable peripheral base station or a GPS receiver. Further, the moving speed of the mobile terminal can be calculated from the terminal position obtained by the above-described calculation and the acquisition time.
[0017]
That is, the method includes the following steps.
[0018]
First, the terminal position and the moving speed of the portable terminal are obtained by periodically calculating base station identification signals received from a plurality of peripheral base stations, GPS radio waves received from GPS satellites by GPS, or data obtained from both. .
[0019]
If the obtained moving speed is higher than the predetermined value, it is determined that the mobile terminal is in the vehicle in which the mobile terminal is traveling, and the obtained terminal position is compared with the route position marked up in the route position storage means. , A predetermined suppression control is executed.
[0020]
Further, during execution of the above-mentioned suppression control, the moving speed and the route position are regularly collated, and when at least the terminal position deviates from the route position, the suppression control is released.
[0021]
The predetermined suppression control executes at least one of the power consumption and the transmission output and performs a predetermined limitation. For example, the use of the mobile terminal other than the periodic calculation and measurement of the traveling speed and the route position in the corresponding portable terminal is performed. It is possible to set the minimum value of the power supply cutoff and the output value when transmitting predetermined data to the base station.
[0022]
In addition, a suppression control signal is sent to the mobile terminal during suppression control, a suppression release signal is sent due to a subsequent mismatch, and a suppression release signal is sent when the predetermined suppression condition is resolved. . Therefore, the portable terminal that has received the suppression control signal executes the predetermined suppression control to maintain the suppression control state, and releases the suppression control state when receiving the suppression release signal.
[0023]
Also, the power / output control system for a portable terminal according to the present invention automatically controls the power consumption / transmission output of the portable terminal according to the moving speed, and transmits a signal for the control to the portable terminal. A power output control device to send, a mobile carrier network connecting a mobile terminal via a base station on the one hand, and a power output control device of the mobile terminal on the other hand, a base station information processing unit, a moving speed analysis unit, , A mobile terminal positioning unit, a route position storage unit, a route determination unit, a transmission / reception signal control unit, and a power output control unit.
[0024]
The base station information processing unit is provided in the mobile terminal, obtains data capable of specifying the position of the own terminal as base station information from base station identification signals received from a plurality of peripheral base stations, and periodically transmits the base station information. On the other hand, when receiving the suppression control signal from the power output control device and in the suppression control state, when the position monitoring signal is received from the power output control device, the base station information is similarly obtained and transmitted.
[0025]
When receiving the base station information, the mobile terminal positioning unit obtains and transmits the position of the mobile terminal on the map based on the received base station information, and is preferably provided in the mobile terminal. The output control device may be provided.
[0026]
The moving speed analysis unit, when receiving the base station information, obtains and transmits the moving speed of the mobile terminal based on the received base station information, and is preferably provided in the mobile terminal. It may be provided in the device.
[0027]
The route position storage unit is provided in the power output control device, and the route position of the public vehicle is marked up on a map in advance.
[0028]
The route determination unit is provided in the power output control device, and when receiving the moving speed of the portable terminal and the terminal position on the map, the moving speed is greater than a predetermined value, and the terminal position on the map is stored in the route position storage unit. It collates with the marked-up route position, determines whether it matches, and outputs it.
[0029]
The transmission / reception signal control unit is provided in the power output control device, and sends a suppression control signal to the mobile terminal when receiving a match determination from the route determination unit, and periodically transmits the suppression control signal to the mobile terminal during the suppression control state. Sends a position monitoring signal to the
[0030]
The power output control unit controls the power consumption / transmission output provided in the mobile terminal based on the instruction, and when receiving the suppression control signal, at least one of the predetermined power consumption and transmission power. And executes the suppression control to maintain the suppression control state, and upon receiving the position monitoring signal, requests the base station information processing unit to process the base station information.
[0031]
The GPS receiver is provided in the portable terminal, and transmits GPS information that allows the terminal position of the mounted portable terminal on a map to be obtained to the portable terminal positioning unit.
[0032]
When receiving the suppression control signal, the power output control unit of the portable terminal supplies power only to a portion that operates when the position monitoring signal and the suppression release signal are received for the used power, and transmits power for the transmission output. Suppress to a minimum based on information obtained from the received base station identification signal, drive the base station information processing unit for the periodic reception of the position monitoring signal, and when receiving the suppression release signal, The suppression control has been released.
[0033]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings. In the drawings, only the portion according to the present invention is shown due to space limitations. Therefore, some basic essential functions are not displayed.
[0034]
FIG. 1 is a functional block diagram showing an embodiment of the present invention.
[0035]
The illustrated power / power control system of a mobile terminal includes a mobile terminal 1, base stations 2A to 2C, a carrier network 3, a power output control device 4 corresponding to the mobile terminal 1, a base station information processing unit 5, a mobile terminal positioning. It comprises a unit 6, a moving speed analysis unit 7, a transmission / reception control unit 8, a route determination unit 9, a route position storage unit 10, a power output control unit 11, a GPS receiver 12, and a GPS satellite group 13. The difference from the conventional configuration is that a power output control device 4 connected to the carrier network 3 is provided.
[0036]
The mobile terminal 1 is intended for mobile computing terminals and the like in addition to the telephone, and includes at least the base station information processing unit 5 and the power output control unit 11, and also includes the moving speed analysis unit 6 and the mobile terminal positioning unit 6. It is desirable to do. In addition, the provision of the GPS receiver 12 enables accurate measurement of the position of the terminal itself. The mobile terminal 1 moves and can sequentially access the base stations 2A to 2C and is connected to the carrier network 3.
[0037]
Each of the base stations 2A to 2C has a system ID (SID) and a network ID (NID) as individual identification (ID) signals, or a PN (Pseudo Noise: pseudo noise) code assigned to each cell, and periodically. Is sending to.
[0038]
The telecommunications carrier network 3 is a communication network of a telecommunications carrier contracting the mobile terminal 1, and is connected to the mobile terminal 1 via the base stations 2 </ b> A to 2 </ b> C and to the power output control device 4.
[0039]
The power output control device 4 is provided for the present invention and controls the power consumption / transmission output of the mobile terminal 1 contracted with the communication carrier of the communication carrier network 3. A route determination unit 9 and a route position storage unit 10 may be provided, and the mobile terminal positioning unit 6 and the moving speed analysis unit 7 may be incorporated.
[0040]
The base station information processing unit 5 is built in the portable terminal 1, measures the reception level of a base station identification signal periodically received from peripheral base stations, and sends out the measurement as base station information. From the base station information, for example, the source of the signal having the highest level can be selected as the communication partner base station. In addition, it is possible to know the outline of the terminal position and the moving speed of the portable terminal from the reception level information.
[0041]
The mobile terminal positioning unit 6 may be provided in either the mobile terminal 1 or the power output control device 4. However, when the mobile terminal positioning unit 6 is provided with the GPS receiver 12 and can obtain its own terminal position accurately, the mobile terminal 1 It is preferable to be built in On the other hand, when the terminal position is measured only with the base station information without using the GPS, a more accurate terminal position can be calculated by performing arithmetic processing corresponding to a communication carrier having an accurate position of the base station. It is desirable to mount it on the power output control device 4.
[0042]
The moving speed analysis unit 7 may be provided in either the mobile terminal 1 or the power output control device 4. In the case where the moving speed is roughly estimated based on the moving state of the base station selected for communication obtained from the base station information, and in the case where the terminal position of the terminal itself can be accurately obtained by providing a GPS receiver, It is preferable to provide the portable terminal 1 together with the information processing unit 5.
[0043]
The transmission / reception control unit 8 is provided in the power output control device 4 and sends a later-described suppression control signal, position monitoring signal, or suppression cancellation signal to the corresponding portable terminal 1 based on the result determined by the route determination unit 9. .
[0044]
The route determination unit 9 is provided in the power output control device 4, and compares the terminal position received from the portable terminal positioning unit 6 with the route position in the route position storage unit 9 when the moving speed received from the moving speed analysis unit 6 is high. It is determined whether or not they match, and if they match, a suppression control signal is sent to the transmission / reception control unit 8. The route determination unit 9 stores the partner mobile terminal 1 that has transmitted the suppression control signal as the suppression control state or the suppression control state. Therefore, the route determination unit 9 checks the terminal position and the moving speed received from the portable terminal 1 in the suppression control state.
[0045]
When the mobile terminal 1 is at the route position of the public vehicle, if the movement is stopped or the moving speed is low within 1 to 2 minutes, it can be determined that the mobile terminal 1 is in the vehicle at the stop. When the movement is stopped for 2 minutes or more or the moving speed is low, for example, it is determined that the portable terminal is in a usable state at the stop or the station yard, and the suppression release signal can be transmitted. Further, even in the case of a route on a road such as a shared bus, the calculation of the moving speed due to a stop due to a road signal, a traffic jam, a right or left turn at an intersection, and the like requires fineness of wood, but the calculation is possible. .
[0046]
The route position storage unit 10 can map up a route from a route map of a public vehicle. However, although the moving speed may be estimated, it is important that the terminal position coincides with the route position. Therefore, the mobile terminal 1 must be equipped with a GPS receiver, or the power output device 4 needs to obtain accurate base station position information. Is essential.
[0047]
The power output control unit 11 is built in the mobile terminal 1 and controls the used power / transmission output provided in the mobile terminal 1 based on an instruction from the power output control device 4 and receives a suppression control signal. In such a case, the control is executed for the predetermined power consumption, the transmission output, or both, and the suppression control state is maintained. The power output control unit 11 requests the base station information processing unit 5 to process the base station information when receiving the position monitoring signal, and executes the suppression control state being executed when receiving the suppression release signal. Cancel.
[0048]
The GPS receiver 12 receives a GPS radio wave from the GPS satellites 13 and can accurately mark a position on the earth on a map with a slight latitude. It is desirable to incorporate it in the portable terminal 1 in order to easily know the exact position, but it is also possible to provide it on the power output control device 4 side to help obtain the position information of the base station.
[0049]
Next, an operation procedure will be described with reference to FIGS.
[0050]
The mobile terminal 1 that moves receives the identification signals one after another from the base stations 2A to 2C, creates the measurement level and the measurement time as the base station information, and sends it out (step S1).
[0051]
The mobile terminal positioning unit 6 having received the base station information can calculate the terminal position from the base station information and send it out (step S2). For example, as disclosed in Japanese Patent Application Laid-Open No. 2002-010325, the reception strength of each base station is measured from a signal from each base station received by a mobile terminal, and a base station identification signal is combined with the base station identification signal. The position of the mobile terminal according to the installation position of the mobile terminal can be estimated. For this reason, it is desirable that the mobile terminal positioning unit 6 be provided in the power output control device 4 on the communication carrier side.
[0052]
Further, the portable terminal positioning unit 6 can rely on GPS for the procedure S2. In this case, it is desirable that the mobile terminal 1 be equipped with the GPS receiver 12.
[0053]
Upon receiving the base station information in step S1, the moving speed analysis unit 7 calculates and sends the moving speed of the portable terminal 1 based on the moving speed of the base stations 2A to 2C that transmitted the received signal having the strongest level (procedure). S3) Yes. In this step S3, the moving position of the mobile terminal 1 is measured and calculated every moment according to the above-mentioned step S2, so that a finer moving speed can be obtained.
[0054]
In the power output control device 4 that has received the moving speed, when the received moving speed is higher than the predetermined speed value, the route determination unit 9 compares the terminal position with the route position (step S4). As a result, when the verifications match, a suppression control signal is created and stored, and transmitted from the transmission / reception control unit 8 to the portable terminal 1 (step S5). The mobile terminal 1 that has received the suppression control signal executes the suppression of the power consumption / transmission output based on a preset condition (step S6).
[0055]
On the other hand, after the suppression control signal is stored in step S5, a position monitoring signal is periodically transmitted from the power output control device 4 to the corresponding portable terminal 1 (step S7). The mobile terminal 1 that has received the position monitoring signal creates and transmits the base station information of the procedure S1 (procedure S8), and then calculates and transmits the terminal position of the procedure S2 by the mobile terminal positioning unit 6 (procedure S9). Then, the calculation and transmission of the moving speed in the above step S3 by the moving speed analyzing unit 7 (step S10) are repeated.
[0056]
When the moving speed becomes equal to or less than the predetermined value in the above procedure, a suppression release signal is generated by the power output control device 4 and transmitted to the corresponding portable terminal 1 (procedure S11). The mobile terminal 1 that has received the suppression release signal releases the power consumption / transmission output suppression state (step S12).
[0057]
In the above description, the configuration for both the base station information and the GPS information has been presented, but it is preferable to use the GPS for fine-grained control.
[0058]
In the above description, reference is made to the illustrated functional blocks and procedures. However, changes such as allocation or separation and replacement of procedures by separating and merging functions are free as long as the above functions are satisfied, and the above description limits the present invention. However, the present invention is not limited to this, and can be applied to portable terminals in general.
[0059]
[Example 1]
Next, of the above-described embodiments, a first example of the present invention will be described specifically and in detail with reference to FIGS. The first embodiment is realized by using only base station information without using GPS in the above-described embodiment.
[0060]
FIG. 3 is a functional block diagram showing the first embodiment. FIG. 4 is a diagram showing a detailed embodiment of the portable terminal 21 of FIG. 3, and FIG. 5 is a diagram showing a detailed embodiment of the power output control device 24 of FIG.
[0061]
The power / output control system corresponding to the mobile terminal 21 shown in FIG. 3 is further configured by base stations 22A to 22C, a carrier network 23, and a power output control device 24. As shown in FIG. 4, the mobile terminal 21 includes a signal receiving unit 31, a signal transmitting unit 32, a base station information processing unit 33, a moving speed analyzing unit 34, a power output control unit 35, a power control unit 36, and a power switch. 37. The power output control device 24 includes a transmission / reception signal control unit 26, a mobile terminal positioning unit 27, a route determination unit 28, and a route position storage unit 29.
[0062]
The base stations 22A to 22C, the carrier network 23, and the route position storage unit 29 are the same as those having the same names described with reference to FIG.
[0063]
The difference from FIG. 1 is that the mobile terminal 21 is provided with a moving speed analysis unit 34 and the power output control device 24 is provided with a mobile terminal positioning unit 27.
[0064]
The signal receiving unit 31 is connected to the base station information processing unit 33 and the power output control unit 35, receives signals from the base stations 22A to 22C, and outputs a base station identification signal directly received from the base stations 22A to 22C. The control unit 33 sends the suppression control signal, the position monitoring signal, and the suppression release signal received from the power output control device 24 to the power output control unit 35, respectively.
[0065]
The signal transmission unit 32 is connected to the base station information processing unit 33, the moving speed analysis unit 34, and the power output control unit 35, and receives the base station information received from the base station information processing unit 33 and the movement received from the moving speed analysis unit 34. Each of the speeds is transmitted to the power output control device 24 via one of the base stations 22A to 22C. The output control information received from the power output control unit 35 is used for transmission output control in the signal transmission unit 32.
[0066]
The base station information processing unit 33 is connected to the signal reception unit 31, the signal transmission unit 32, the moving speed analysis unit 34, and the power output control unit 35, and receives the base station identification signal from the signal reception unit 31 periodically, and And transmits the level value and the measurement time together with the base station identification signal to the signal transmitting unit 32 and the moving speed analyzing unit 34 as base station information.
[0067]
In the base station information processing section 33, the processing is controlled based on the processing control information received from the power output control section 35 to be connected. The processing control information cooperates with the power output control unit 35. For example, in the case of power suppression control, the processing operation is also stopped in parallel with the cutoff of the power supply. At the time of position monitoring, power is supplied for processing of a procedure only for obtaining base station information necessary for analyzing and measuring the moving speed and the terminal position.
[0068]
The moving speed analyzing unit 34 receives the base station information from the base station information processing unit 33, analyzes the moving state of the base station selected for communication from the base station information, and estimates the moving speed of the portable terminal 21. , As moving speed information.
[0069]
The power output control unit 35 is connected to the signal reception unit 31, the signal transmission unit 32, the base station information processing unit 33, and the power control unit 36, and receives the above-described suppression control signal, position monitoring signal, and suppression from the signal reception unit 31. In response to the release signals, control of power consumption and / or transmission output in the mobile terminal 21 is executed based on these signals.
[0070]
The power output control unit 35 holds the suppression control signal until receiving the suppression release signal, for example, creates power control information and controls the power supply control unit 36, for example, only the position monitoring signal and the suppression cancellation signal reception circuit. Supply power to
[0071]
On the other hand, when the power output control unit 35 receives the position monitoring signal in the suppressed state, the power output control unit 35 generates power control information, controls the power control unit 36 to supply power, and uses the processing control information to transmit power. Instruct 33. In response to this instruction, the base station information processing unit 33 receives the base station identification signal, creates base station information, and instructs the moving speed analyzing unit 34 to create moving speed information. Further, the power output control unit 35 creates output control information and instructs the signal transmission unit 32 to reduce the transmission output.
[0072]
When receiving the suppression release signal, the power output control unit 35 deletes the held suppression control signal and releases the suppression state.
[0073]
The power control unit 36 distributes the power supplied via the power switch 37 to each of the components of the portable terminal 21. Further, the power control unit 36 is connected to the power output control unit 35 and receives power control information. When the power output control unit 35 receives the suppression control signal, the power control unit 36 that has received the power control information controls, for example, to supply power only to the minimum necessary part as described above.
[0074]
The illustrated power switch 37 is a main power switch for manually turning on / off the power supply to the mobile terminal 1.
[0075]
The transmission / reception signal control unit 26 accesses the mobile terminal 21 via the carrier network 23, receives the base station information and the moving speed information from the mobile terminal 21, receives the suppression control signal and the position monitoring signal created for the mobile terminal 21. Or a suppression release signal. The transmission / reception control unit 26 is connected to the portable terminal positioning unit 27 and the route determination unit 28, and holds a threshold value of the traveling speed for determining the vehicle traveling in advance.
[0076]
When receiving the base station information and the moving speed information from the mobile terminal 21, the transmission / reception signal control unit 26 sends the received base station information to the mobile terminal positioning unit 27, and stores the threshold value held by the received moving speed information. If it is larger, the position determination unit 28 is instructed to collate and judge the position, and the result is obtained.
[0077]
When the transmission / reception signal control unit 26 obtains the information indicating the coincidence from the route determination unit 28, the transmission / reception signal control unit 26 creates and transmits the suppression control signal, and holds the suppression control signal corresponding to the corresponding mobile terminal 21 to continue the suppression control process. Is stored. The transmission / reception control unit 26 periodically sends a position monitoring signal to the portable terminal 21 holding the suppression control signal, and receives base station information and moving speed information from the portable terminal 21.
[0078]
When the predetermined condition that the traveling speed is slow and the vehicle is in a public vehicle is not satisfied, or when information indicating mismatch is obtained from the route determination unit 28, the transmission / reception control unit 26 creates a suppression release signal and generates a corresponding mobile phone. Send it to terminal 21.
[0079]
The mobile terminal positioning unit 27 holds the accurate position information of the base station in advance and receives signal levels received by the mobile terminal 21 from a plurality of peripheral base stations as base station information. The position is obtained and sent to the route determination unit 28.
[0080]
The route determination unit 28 is connected to the transmission / reception signal control unit 26, the portable terminal positioning unit 27, and the route position storage unit 29, and receives a command from the transmission / reception signal control unit 26 and receives the terminal received from the portable terminal positioning unit 27. The position information is collated with the route position mapped up in the route position storage unit 29, and a match / mismatch is notified to the transmission / reception control unit 26.
[0081]
Next, a main operation of the portable terminal 21 will be described with reference to FIGS.
[0082]
First, in the mobile terminal 21, the base station information processing unit 33 periodically receives base station identification signals from the surrounding base stations 22A to 22C via the signal receiving unit 31 (procedure S21), and measures the received signal level. Then, a measurement level value, a measurement time, and a base station identification signal are created as base station information, stored (step S22), and sent to the signal transmission unit 32.
[0083]
If there is previous base station information corresponding to the portable terminal 21 (YES in step S23), the moving speed analysis unit 34 calculates the moving speed by receiving the plurality of base station information having different measurement times (step S23). S24) and sends the signal to the signal transmission unit 32.
[0084]
The signal transmitting unit 32 transmits the received base station information and moving speed to the power output control device 24 via the selected one, for example, the closest base station (step S25).
[0085]
On the other hand, when the power output control unit 35 receives the suppression control signal from the power output control device 24 via the selected base station and the signal reception unit 31 (YES in step S26), the power saving control signal is stored and the predetermined suppression is performed. The control process is executed (procedure S27).
[0086]
While the suppression control signal is being stored, the suppression control process is continuing, and the power output control unit 35 periodically receives the position monitoring signal from the power output control device 24 via the base station selected by the power output control device 24 and the signal reception unit 31 ( Step S28 is YES). Therefore, the procedure returns to the above-described procedure S21 of periodically receiving the base station identification signal from the peripheral base stations 22A to 22C, and is repeated.
[0087]
When this step S28 is "NO" and a suppression release signal is received instead of the position monitoring signal (YES in step S29), the power output control unit 35 cancels the holding of the suppression control signal and cancels the suppression control processing. (Step S30).
[0088]
Next, the main operation of the power output control device 24 will be described with reference to FIGS.
[0089]
First, in the power output control device 24, the transmission / reception control unit 26 periodically receives the base station information and the moving speed from the portable terminal 21 via the carrier network (procedure S41), and the moving speed is stored in the predetermined storage. If it is larger than the ground (YES in step S42), the base station information is sent to the portable terminal positioning unit 27.
[0090]
The mobile terminal positioning unit 27 calculates the terminal position of the mobile terminal 21 from the received base station information (procedure S43), and sends the result to the route determination unit 28. The route determination unit 28 compares the received terminal position with the route position in the route position storage unit 29 (step S44), and sends the result to the transmission / reception control unit 26. As a result of the comparison, when the terminal position is on the route of the public vehicle (YES in step S45), the transmission / reception control unit 26 determines whether the corresponding mobile terminal 21 is continuing the suppression control process (step S46). ).
[0091]
If step S46 is “NO” and the corresponding portable terminal 21 is not in the suppression control process, the transmission / reception signal control unit 26 creates a suppression control signal and saves it in the corresponding portable terminal 21 for the suppression control process. While the continuation is stored, the suppression control signal is transmitted to the portable terminal 21 via the communication carrier network 23 (procedure S47).
[0092]
Next, when the monitoring timer starts operating and reaches the time limit (YES in step S48), the transmission / reception signal control unit 26 sends a position monitoring signal to the corresponding portable terminal 21 via the carrier network 23 (step S49). Then, the procedure returns to step S41 for receiving the base station information and the moving speed in response to the position monitoring signal, and the above-described procedure is repeated.
[0093]
Under the condition that the above step S42 is “NO” and the moving speed is equal to or less than a predetermined value, or the above step S45 is “NO” and the terminal position is not on the route and the suppression control process is continuing (YES in step S51), The signal control unit 26 sends a suppression release signal to the corresponding portable terminal 21 via the communication carrier network 23 (step S52), and deletes the storage of the suppression control signal (step S53) to store the suppression control processing during continuation. Cancel and end the procedure.
[0094]
[Example 2]
Next, of the above embodiments, a second example of the present invention will be described specifically and in detail with reference to FIGS. In the second embodiment, in the above-described embodiment, the above-described function is realized using the GPS.
[0095]
FIG. 8 is a functional block diagram showing the second embodiment. FIG. 9 is a functional block diagram showing a detailed embodiment of the portable terminal 41 of FIG. 8, and FIG. 10 is a functional block diagram showing a detailed embodiment of the power output control device 44 of FIG.
[0096]
The power / output control system corresponding to the mobile terminal 41 shown in FIG. 8 is additionally configured by base stations 42A to 42C, a carrier network 43, and a power output control device 44. As shown in FIG. 9, the mobile terminal 41 includes a signal receiving unit 51, a signal transmitting unit 52, a base station information processing unit 53, a GPS positioning unit 54, a moving speed analyzing unit 55, a power output control unit 56, a power control unit. The power output control device 44 includes a transmission / reception signal control unit 61, a route determination unit 62, and a route position storage unit 63, as shown in FIG.
[0097]
The base stations 42A to 42C, the carrier network 43, and the route position storage unit 63 have the same names as those described with reference to FIG.
[0098]
The difference from FIG. 1 is that the mobile terminal 41 is provided with a GPS positioning unit 54 and a moving speed analysis unit 55.
[0099]
The signal receiving unit 51 is connected to the base station information processing unit 53 and the power output control unit 56, receives signals from the base stations 42A to 42C, and receives base station identification signals directly received from the base stations 42A to 42C. The suppression control signal, the position monitoring signal, and the suppression release signal received from the power output control device 44 are sent to the processing unit 53 to the power output control unit 56, respectively.
[0100]
The signal transmission unit 52 is connected to the base station information processing unit 53, the GPS positioning unit 54, the moving speed analysis unit 55, and the power output control unit 56, and receives base station information received from the base station information processing unit 53, the GPS positioning unit 54 Each of the positioning data received from the mobile station and the moving speed received from the moving speed analysis unit 55 is transmitted to the power output control device 44 via one of the base stations 42A to 42C. The output control information received from the power output control unit 56 is used for transmission output control in the signal transmission unit 52.
[0101]
The base station information processing unit 53 is connected to the signal reception unit 51, the signal transmission unit 52, and the power output control unit 56, receives the base station identification signal from the signal reception unit 51 periodically, and measures the respective intensity levels. , The level value and the measurement time together with the base station identification signal are sent to the signal sending unit 52 as base station information.
[0102]
In the base station information processing section 53, the processing is controlled based on the processing control information received from the power output control section 56 to be connected. The processing control information cooperates with the power output control unit 56. For example, in the case of power suppression control, the processing operation is also stopped in parallel with the power supply cutoff. At the time of position monitoring, power is supplied for processing of a procedure only for obtaining base station information necessary for analyzing and measuring the moving speed and the terminal position.
[0103]
The GPS positioning unit 54 is connected to the signal transmitting unit 52 and the moving speed analyzing unit 55, receives a GPS radio wave from the GPS satellites 45, and can accurately mark a position on the earth on a map with a slight latitude. A GPS receiver for calculating a position is provided, and terminal position information to be sent to the power output control device 44 is sent to the signal sending unit 52, and terminal position information for moving speed calculation is sent to the moving speed analyzing unit 55. .
[0104]
The moving speed analyzing unit 55 receives the terminal position information from the GPS positioning unit 54, calculates the moving speed from the position data, and sends out the moving speed information to the signal transmitting unit 52.
[0105]
In the drawings, the GPS positioning unit 54 and the moving speed analyzing unit 55 are separately illustrated and described. However, when a GPS receiver capable of calculating up to the moving speed is provided, the GPS positioning unit 54 and the moving speed analyzing unit 55 are provided in the GPS receiver. The configuration includes the unit 55.
[0106]
The power output control unit 56 is connected to the signal reception unit 51, the signal transmission unit 52, the base station information processing unit 53, and the power supply control unit 57, and receives the above-described suppression control signal, position monitoring signal, And the control release control signal to control the power consumption and / or transmission output in the portable terminal 41 based on these signals.
[0107]
The power output control unit 56 holds the suppression control signal until receiving the suppression release signal, for example, creates power control information and controls the power supply control unit 57, and controls only the position monitoring signal and the suppression cancellation signal reception circuit. Supply power.
[0108]
When the power output control unit 56 receives the position monitoring signal in the state of the suppression control, the power output control unit 56 generates power control information, controls the power control unit 57 to supply power, and uses the processing control information to transmit the base station information. It instructs the processing unit 53. Based on this instruction, the base station information processing section 53 receives the base station identification signal and creates base station information. Further, the power output control unit 56 creates output control information and instructs the signal transmission unit 52 to reduce the transmission output.
[0109]
When receiving the suppression release signal, the power output control unit 56 deletes the held suppression control signal and cancels the state of the suppression control.
[0110]
The power control unit 57 distributes the power supplied via the power switch 58 to each of the components of the portable terminal 41. The power control unit 57 is connected to the power output control unit 56 and receives power control information. When the power output control unit 56 receives the suppression control signal, the power supply control unit 57 that has received the power control information controls, for example, to supply power to only the minimum necessary part as described above.
[0111]
The illustrated power switch 58 is a main power switch for manually turning on / off the power supply to the portable terminal 41.
[0112]
Next, the transmission / reception signal control unit 61 shown in FIG. 9 accesses the mobile terminal 41 via the carrier network 43 and receives base station information, terminal location information, and moving speed information from the mobile terminal 41, The created suppression control signal, position monitoring signal, or suppression cancellation signal is sent to the portable terminal 41. The transmission / reception control unit 61 is connected to the route determination unit 62 and holds a threshold value of the moving speed in advance.
[0113]
When receiving the base station information, the terminal position information, and the traveling speed information from the portable terminal 41, the transmission / reception control unit 61 sends the received terminal position information to the route determination unit 62, and receives the received traveling speed information. If the value is larger than the threshold value to be held, a determination is instructed to the route determination unit 62 to obtain the result.
[0114]
When the transmission / reception signal control unit 61 obtains the position coincidence information from the route determination unit 62, the transmission / reception signal control unit 61 creates and sends a suppression control signal, holds the suppression control signal corresponding to the corresponding portable terminal 41, and continues the suppression control process. Remember inside. The transmission / reception control unit 26 periodically sends a position monitoring signal to the portable terminal 21 holding the suppression control signal, and receives base station information and moving speed information from the portable terminal 21.
[0115]
When the predetermined condition that the traveling speed is slow and the vehicle is in a public vehicle is not satisfied, or when information indicating mismatch is obtained from the route determination unit 62, the transmission / reception control unit 61 creates a suppression release signal and generates a corresponding mobile phone. Send it to terminal 21.
[0116]
The route determination unit 62 is connected to the transmission / reception control unit 61 and the route location storage unit 63, and when receiving an instruction from the transmission / reception control unit 61, maps the terminal location information received at the same time to the route location storage unit 63. Then, the transmission / reception control unit 61 is notified of the coincidence / non-coincidence.
[0117]
Next, the main operation of the portable terminal 41 will be described with reference to FIGS.
[0118]
First, the GPS positioning unit 54 periodically determines the terminal position of the self-portable terminal 41 and sends the terminal position information to the signal transmission unit 52 and the moving speed analysis unit 55 together with the time. The moving speed analysis unit 55 stores the received terminal position information (step S61).
[0119]
If the previous terminal position information is stored (YES in step S62), the moving speed analysis unit 55 calculates the moving speed of the portable terminal 41 from the plurality of terminal position information (step S63), and outputs a signal. Send to 52. On the other hand, the base station information processing section 53 periodically receives base station identification signals from the surrounding base stations 42A to 42C via the signal receiving section 51, measures the received signal level, and selects the information destination base station. It is created in the base station information and sent to the signal sending unit 32.
[0120]
The signal transmitting unit 52 transmits the received terminal position information and moving speed information to the power output control device 44 via the selected base station (step S64).
[0121]
On the other hand, when the power output control unit 56 receives the suppression control signal from the power output control device 44 via the selected base station and the signal reception unit 51 (YES in step S65), the power control unit 56 stores the received suppression control signal and performs predetermined suppression. The information processing is executed (procedure S66).
[0122]
While the suppression control signal is being saved, the suppression control process is continuing, and the power output control unit 56 periodically receives the position monitoring signal from the power output control device 44 via the base station selected by the power output control device 44 and the signal reception unit 51 ( Step S67: YES). Therefore, the procedure returns to the above-described procedure S61 of determining and storing the terminal position by the GPS positioning unit 54, and is repeated.
[0123]
When the above step S67 is “NO” and the suppression release signal is received instead of the position monitoring signal (YES in step S68), the power output control unit 56 deletes the holding of the suppression control signal and continues the suppression control processing. Is released (step S69).
[0124]
Next, the main operation of the power output control device 44 will be described with reference to FIGS.
[0125]
First, in the power output control device 44, the transmission / reception control unit 61 periodically receives terminal position information and moving speed information from the portable terminal 41 via the communication carrier network 43 (procedure S81), and the moving speed becomes a predetermined value. (YES in step S82), the received terminal position information is sent to the route determination unit 62. The route determination unit 62 compares the received terminal position with the route position in the route position storage unit 63 (step S83), and sends the result to the transmission / reception control unit 61. As a result of the collation, when the terminal position is on the route of the public vehicle (YES in step S84), the transmission / reception control unit 61 determines whether the corresponding mobile terminal 41 is continuing the suppression control process (step S84). S85).
[0126]
If step S85 is “NO” and the corresponding mobile terminal 41 is not in the continuation of the suppression control process, the transmission / reception control unit 61 creates the suppression control signal and stores it in the corresponding portable terminal 41 to continue the suppression control process. In addition to storing the contents, the suppression control signal is transmitted to the portable terminal 41 via the carrier network 43 (step S86).
[0127]
Next, when the monitoring timer starts operating and reaches the time limit (YES in step S87), the transmission / reception control unit 61 sends the position monitoring signal to the corresponding portable terminal 41 via the communication carrier network 43 (step S88). Then, the procedure returns to step S81 for receiving the terminal position information and the moving speed information in response to the position monitoring signal, and the above-described procedure is repeated.
[0128]
If the procedure S82 is "NO" and the moving speed is equal to or less than the predetermined value, or the procedure S84 is "NO" and the terminal position is not on the route of the public vehicle, and the suppression control process is continuing (YES in procedure S91). The transmission / reception control unit 61 sends the suppression release signal to the corresponding portable terminal 41 via the communication carrier network 43 (step S92), deletes the storage of the suppression control signal (step S93), and continues the suppression control process. Is canceled and the procedure ends.
[0129]
【The invention's effect】
As described above, according to the present invention, the terminal position and the moving speed of the mobile terminal are obtained from the base station identification signal or the GPS receiver, and the mobile terminal travels when the moving speed of the mobile terminal is higher than a predetermined speed. If it is determined that the mobile terminal is located inside the public vehicle, the terminal position is compared with the separately provided route position of the public vehicle marked up on the map, and the mobile terminal is located in the public vehicle. It is determined that there is. In this state, the transmission output of the transmission information is suppressed together with the power consumption of the portable terminal, and automatic control is performed so as to follow the manners in the public vehicle. When the above condition disappears, the suppression state is released. Therefore, there is an effect that the portable terminal in the public vehicle can be automatically switched to the manner mode regardless of the intention of the holder of the portable terminal.
[Brief description of the drawings]
FIG. 1 is a functional block diagram showing an embodiment of the present invention.
FIG. 2 is a sequence chart showing one mode of a main operation procedure in FIG.
FIG. 3 is a functional block diagram showing a first embodiment of the present invention.
FIG. 4 is a functional block diagram showing one embodiment of the portable terminal in FIG. 3;
FIG. 5 is a functional block diagram showing one embodiment of a power output control device in FIG. 3;
FIG. 6 is a flowchart showing an embodiment of a main procedure of the portable terminal in FIG. 4;
FIG. 7 is a flowchart showing one embodiment of a main procedure of the power output control device in FIG. 5;
FIG. 8 is a functional block diagram showing a second embodiment of the present invention.
FIG. 9 is a functional block diagram showing one embodiment of the portable terminal in FIG. 8;
FIG. 10 is a functional block diagram showing one embodiment of a power output control device in FIG. 8;
FIG. 11 is a flowchart showing an embodiment of a main procedure of the portable terminal in FIG. 9;
FIG. 12 is a flowchart showing one embodiment of a main procedure of the power output control device in FIG. 10;
FIG. 13 is a functional block diagram showing an example of the related art.
[Explanation of symbols]
1,21,41 Mobile terminal
2A, 2B, 2C, 22A, 22B, 22C, 42A, 42B, 42C Base station
3,23,43 Carrier network
4, 24, 44 Power output control device
5, 33, 53 Base station information processing section
6, 27 Mobile terminal positioning unit
7, 34, 55 Moving speed analysis unit
8, 26, 61 Transmission / reception control unit
9, 28, 62 Route judgment unit
10, 29, 63 Route position storage unit
11, 35, 56 Power output control unit
31, 51 signal reception unit
32, 52 signal transmission unit
36, 57 Power control unit
37, 58 Power switch
54 GPS positioning unit

Claims (6)

A power / output control method for a mobile terminal, which automatically controls power consumption / transmission output in the mobile terminal according to a moving speed,
The mobile terminal is connected to a communication carrier network via a base station, and includes a route position storage unit that previously marks up a route position of a public vehicle on a map,
Data obtained from at least one of a base station identification signal received from a plurality of peripheral base stations and a GPS radio wave received from a GPS satellite by GPS (Global Positioning System) is calculated at regular time points, and the terminal position of the portable terminal and Get the moving speed,
If the acquired moving speed is higher than a predetermined value, the acquired terminal position is compared with the line position marked up in the line position storage means, and while the terminal position and the line position match, the power consumption and the transmission output of the portable terminal are used. At least one side executes a predetermined suppression control, and
While the suppression control is being executed, the mobile terminal periodically checks the moving speed and the route position, and releases the suppression control when at least the terminal position deviates from the route position. Output control method. 2. The power output control device for a portable terminal according to claim 1, wherein the power output control device is connected to the carrier network and includes the route position storage unit.
The mobile terminal calculates and obtains the terminal position and the moving speed of the mobile terminal and sends them to the power output control device,
In the power output control device, when the acquired moving speed is higher than a predetermined value, the acquired terminal position is collated with a line position marked up in the line position storage unit and is suppressed to the portable terminal when a match is found. While sending the control signal, send the suppression release signal in the subsequent verification mismatch, and
The portable terminal receiving the suppression control signal, executes the predetermined suppression control to maintain the suppression control state, and releases the suppression control state when receiving the suppression release signal. Power / output control method. 2. The power output control device for a portable terminal according to claim 1, wherein the power output control device is connected to the carrier network and includes the route position storage unit.
The mobile terminal calculates data obtained from a base station identification signal received from a plurality of peripheral base stations, obtains base station information capable of calculating a moving speed and a terminal position of the mobile terminal, sends the information to the power output control device,
If the moving speed acquired by the power output control device is higher than a predetermined value, the terminal position is calculated from the acquired base station information, and is matched with a route position marked up in the route position storage means. While sending a suppression control signal to the portable terminal, while sending a suppression release signal due to a subsequent mismatch, and
The portable terminal receives the suppression control signal, executes the predetermined suppression control to maintain the suppression control state, and releases the power suppression state when receiving the suppression release signal. / Output control method. In a power / output control system for a mobile terminal, which automatically controls power consumption / transmission output of the mobile terminal according to a moving speed,
On the one hand, the mobile terminal is connected via a base station, and on the other hand, the carrier network for connecting the power output control device of the mobile terminal,
The mobile terminal is provided with, from a base station identification signal received from a plurality of peripheral base stations, data capable of specifying its own terminal position is obtained as base station information, and this base station information is periodically transmitted while the power output A base station information processing unit that similarly obtains and transmits the base station information when receiving a position monitoring signal from the power output control device when in a suppression control state when receiving a suppression control signal from a control device,
A mobile terminal positioning unit that is provided in the mobile terminal or the power output control device and, when receiving the base station information, sends out a location of the mobile terminal on a map based on the received base station information,
A moving speed analyzing unit that is provided in the mobile terminal or the power output control device and, when receiving the base station information, obtains and transmits the moving speed of the mobile terminal based on the received base station information;
A route position storage unit that is provided in the power output control device and that previously marks up a route position of a public vehicle on a map;
When provided in the power output control device, when the moving speed of the portable terminal and the terminal position on the map are received, the moving speed is greater than a predetermined value, and the terminal position on the map is marked in the route position storage unit. A route determination unit that compares with the route position that has been uploaded, determines whether or not there is a match, and outputs the result;
The power output control device is provided with a suppression control signal to the mobile terminal when a match determination is received from the route determination unit, while periodically monitoring the position while the mobile terminal is in the suppression control state. A transmission / reception control unit for transmitting a signal, and
The portable terminal is provided with, when receiving the suppression control signal, executing a suppression control of at least one of a predetermined power consumption and a transmission output to maintain a suppression control state and receiving the position monitoring signal. A power output control unit for requesting the base station information processing unit to process the base station information. 5. The portable terminal according to claim 4, further comprising: a GPS (Global Positioning System) receiver, wherein the GPS receiver transmits GPS information for obtaining a terminal position of the mounted portable terminal on a map to the portable terminal positioning unit. Power / output control system for a mobile terminal. The power output control unit of the portable terminal according to claim 4, wherein the power output control unit of the mobile terminal supplies power only to a part that operates when the position monitoring signal and the suppression release signal are received when the suppression control signal is received. Supply, the transmission output is suppressed to a minimum based on information obtained from the received base station identification signal, and the base station information processing section is driven for the reception of the position monitoring signal periodically, and The power / output control system for a portable terminal, wherein the suppression control is canceled when the suppression cancellation signal is received.

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