JP4879858B2 - Mobile receiver - Google Patents

Description

  The present invention relates to a mobile receiver, and more particularly to a mobile receiver capable of receiving an emergency alert broadcast.

  Emergency warning broadcasting is a broadcasting system that automatically launches TV and radio receivers that respond to broadcast waves and delivers disaster information such as earthquakes and tsunamis. Digital terrestrial one-segment broadcasting (one-segment broadcasting) also has this mechanism.

  If mobile receivers such as 1Seg terminals that many people expect to carry can be made compatible with emergency alert broadcasts, the chances of disseminating emergency information will increase dramatically, resulting in more people You can keep it safe.

  In order to install the emergency alert broadcast reception function in a mobile reception device such as a one-segment terminal, it is necessary to monitor an emergency alert broadcast activation flag multiplexed with a transmission control signal (TMCC: Transmission and Multiplexing Configuration Control). And in a mobile receiver, it was necessary to suppress consumption of the battery (battery) at the time of waiting.

In order to solve the above-mentioned problem, by demodulating only the carrier of the transmission control signal to which the emergency warning broadcast activation flag is transmitted, by detecting intermittently in accordance with the timing at which the emergency warning broadcast activation flag is transmitted, A method has been proposed that can reduce standby power during monitoring (see Non-Patent Document 1).
D-pa Journal vol. 05 Pages 27 to 28 “One-Seg Technology Course (4) One-Seg Emergency Warning Broadcast”

  By the way, in a mobile reception device such as a mobile phone, the position changes with the movement of the user, so if the emergency alert broadcast was simply received and displayed, the battery (battery) was consumed quickly and the battery ( There is a risk that the emergency alert broadcast that is really necessary for the user cannot be received due to the battery being exhausted.

  Accordingly, an object of the present invention is to provide a mobile reception device that can present warning information required by the user to the user according to the remaining battery level of the mobile reception device and the position of the user.

The mobile receiver of the present invention includes a battery serving as a power source, a remaining amount detecting means for detecting the remaining amount of the battery, and reception for extracting information indicating that an emergency warning broadcast is being received by receiving a digital broadcast Means, warning means for notifying a user of warning information based on an emergency warning broadcast, a first power state for supplying power to the receiving means, and a second power source for supplying power to the receiving means and the warning means Power control means for switching between states, position information acquisition means for acquiring position information indicating the position of current reception by the receiving means, and alarm area acquisition for acquiring area information for specifying an alarm area related to emergency alert broadcasting And the location of the reception based on the location information acquired by the location information acquisition unit and the location information acquired by the alert location acquisition information means. And whether determination unit controls the spacing of the extraction timing by said receiving means according to the position of the remaining battery capacity and the reception, digital broadcast received by said receiving means is performing the emergency warning broadcast to determine whether the emergency alert broadcast the power control when the first and alarm to maintain the power state is determined to be performed by said power control means until it is determined that you have done Control means for determining control to switch to the second power state by means, and the control means for determination control sets the interval of the extraction timing according to the remaining battery level and the reception position. The first state of the default interval, the second state of the interval longer than the interval of the first state, the third state of the interval shorter than the interval of the first state, and the interval of each of the states In the mobile reception device, the determination control unit sets the extraction timing interval to the first state when the remaining battery level is equal to or greater than a predetermined amount. When the battery remaining amount is less than a predetermined amount, the extraction timing interval is set to a second state longer than the first state, the reception position is included in an alarm area, and the battery remaining amount is When the predetermined position is greater than or equal to the predetermined amount, the third state is set, and the reception position is included in the warning area and the remaining battery level is less than the predetermined amount, or the reception position is not included in the warning area. The fourth state is set .

  According to the present invention, since the timing interval for extracting information indicating that emergency alert broadcasting is being performed from digital broadcasting is controlled according to the remaining battery level, The power consumption can be controlled, and the optimum standby at the user's position and the emergency alert broadcast reception state can be obtained.

  Embodiments of the present invention will be described in detail with reference to the drawings. In the drawings, the same or corresponding parts are denoted by the same reference numerals, and the description thereof will not be repeated in order to avoid duplication of description. FIG. 1 is a block diagram showing a configuration of a mobile phone as a mobile reception device according to the first embodiment of the present invention.

A cellular phone 1 shown in FIG. 1 includes a control unit (control means for determination control) 10 constituted by a microcomputer, and a digital broadcast antenna 11, a tuner 12, a demodulation / decoding unit as functions for receiving digital television broadcasts. 13, a signal separation unit 14, an activation flag detection unit 15, a video decoding unit 16, a video control unit 17, an audio decoding unit 18, an audio control unit 19, a display 20, and a speaker 21.

  In addition, the mobile phone 1 includes a GPS antenna 30, a position information receiving unit 31, and a position information storage unit 32 for the current position of the user.

  Furthermore, the mobile phone 1 includes a rechargeable battery 40, a remaining amount detection unit 41 that detects the remaining amount of the rechargeable battery 40, and a power control unit 42 that controls power supply to each block.

  The cellular phone 1 includes a mobile communication antenna 51, a mobile communication radio unit 52, a mobile communication modulation / demodulation unit 53, a microphone 54, a voice encoding unit 55, operation keys 56 such as a numeric keypad, and a key input unit 57 as functions of the telephone. Is provided.

  Although the cellular phone 1 shown in FIG. 1 incorporates each circuit that realizes a normal telephone function, a detailed description of portions that are not directly related to the present invention is omitted for ease of explanation. To do.

  Each of the above blocks may be configured by a dedicated circuit, or may be realized by executing a program for executing each process using a microprocessor or the like built in the mobile phone 1. .

  The tuner 12 receives a terrestrial digital broadcast wave via the digital broadcast antenna 11, selects a signal of a specific frequency from the harmonic digital modulation signal, converts it to an intermediate frequency signal, demodulates and decodes 13, and Output to the activation flag detector 15.

  The demodulation / decoding unit 13 demodulates and decodes the intermediate frequency signal and outputs a transport stream signal to the signal separation unit 14. The signal separation unit 14 converts the transport stream signal, separates it into a video signal, an audio signal, and a control signal, and sends them to the control unit 10.

  The control unit 10 sends the supplied video / audio signal to the video decoding unit 16 and the audio decoding unit 18. The video decoding unit 16 generates a video signal by decoding the received encoded video signal, sends the video signal to the video control unit 17, and controls the display on the display 20 by the video control unit 17. And emergency warning broadcast video. Also, the audio decoding unit 18 decodes the encoded audio signal that has been sent, sends it to the audio control unit 19, controls the volume etc. by the audio control unit 17, and performs digital terrestrial broadcasting and emergency warning from the speaker 21. Play broadcast audio. In the above description, each block has been described by taking terrestrial digital broadcasting as an example. However, if emergency warning broadcasting is multiplexed, BS digital broadcasting and the like are processed in the same manner as described above.

  The activation flag detection unit 15 detects an emergency warning broadcast activation flag of TMCC (Time Multiplexing Configuration Control) from the intermediate frequency signal from the tuner 12, and the emergency warning broadcast activation flag is “1”. On the other hand, it is determined that the emergency alert broadcast is not transmitted when the emergency alert broadcast activation flag is “0”, and the determination result is output to the control unit 10.

  In the one-segment service, four TMCC carriers are sent. An emergency warning broadcast activation flag is assigned to the 27th bit of the TMCC carrier of the one-segment segment. The transmission cycle of the emergency warning broadcast activation flag is 0.2 seconds.

  The activation flag detection unit 15 is driven to extract only the TMCC carrier and to monitor intermittently in accordance with the timing at which the emergency warning broadcast activation flag is transmitted. Further, the tuner 12 can be controlled to be intermittently driven at the same timing, thereby further saving power. In the present invention, as will be described later, the timing of this intermittent drive is adjusted according to the position of the user and the remaining battery level so that the power consumption can be reduced and the emergency warning broadcast optimal for the user can be received. 10 performs control.

  The rechargeable battery 40 as an internal power source is composed of a lithium ion battery or the like, supplies power to the power control unit 42 and the control unit 10, and supplies power to a predetermined block in the apparatus according to an instruction from the power control unit 42. Supply.

  The remaining amount of the rechargeable battery 40 is detected by the remaining amount detection unit 41. The remaining amount detection unit 41 detects the remaining amount of the battery 40 from the output voltage and current consumption of the battery 40 and notifies the control unit 10 of the detected remaining amount. The power supply control unit 42 controls the output power supplied from the battery 40 to each block according to the control signal from the control unit 10. In this embodiment, the control unit 10 and the power supply control unit 42 are configured as separate blocks. However, the control unit 10 has a function of the power supply control unit, and the power supply control unit 42 is not used as a separate block. May be.

  The power supply control unit 42 controls the battery 40 to supply power to at least the tuner 12 and the activation flag detection unit 15 when the apparatus main body is in the minimum power saving state, for example, and the activation flag detection unit 15 performs emergency warning broadcasting. If it is determined that is not transmitted, the minimum power saving state is maintained.

  On the other hand, when the activation flag detection unit 15 determines that the emergency warning broadcast is being sent, the power state is switched from the minimum power saving state to the normal power saving state which is an example of the first power saving state. The battery 40 is controlled to supply power to the unit 13, the position information receiving unit 31, and the position information storage unit 32.

  When the activation flag detector 15 determines that an emergency warning broadcast is being transmitted, the position information receiver 31 receives a GPS (Global Positioning System) radio wave transmitted from the satellite via the GPS antenna 30. Then, the current position of the mobile phone 1, that is, the current position of the user is detected using a known GPS distance measurement method, and position information representing the current position is output to the position information storage unit 32. The position information storage unit 32 stores position information.

  Further, when the activation flag detection unit 15 determines that an emergency warning broadcast is being transmitted, the demodulation / decoding unit 13 extracts PSI (Program Specific Information) from the transport stream, and the PSI within the PSI “Start_end_flag”, “signal_level” and “area_code” are extracted from the emergency information descriptor stored in the PMT (Program Map Table), and “area_code” and “control_en” are output. The control unit 10 determines “area_code” and “start_end_flag”.

  Here, the emergency information descriptor is a descriptor defined in ARIB STD-B10, and describes necessary information and functions as an emergency warning signal. “Start_end_flag” (start / end flag) is information indicating that an emergency warning broadcast is being performed, and is composed of a 1-bit flag, and is an emergency warning signal defined in Ministry of Posts and Telecommunications Publication No. 60405. Corresponds to the start signal and the end signal. When “start_end_flag” is “1”, the emergency alert signal is started or being broadcast, and when “0”, the emergency alert signal is ended.

  “Signal_level” (signal type) is information indicating the warning level of emergency warning broadcasting, is composed of a 1-bit field, and corresponds to the type of emergency warning signal defined in Article 138-2 of the Radio Station Operation Rules. Yes. When “signal_level” is “1”, it indicates that the emergency alert signal to be broadcast is the first type start signal. When “signal” is “0”, it indicates that the emergency alert signal to be broadcast is the second type start signal. Show.

  “Area_code” (area code) is area information for specifying an alarm area related to the emergency alarm broadcast, that is, an alarm area that needs to be notified of the emergency alarm broadcast, and is composed of a 12-bit field. Corresponding to the area code defined in Article 138-3, the area code assigned in accordance with the Ministry of Posts and Telecommunications Publication No. 60405 is used.

  Note that the information indicating that the emergency alert broadcast is being performed, the region information specifying the alarm region related to the emergency alert broadcast, and the information indicating the alert level of the emergency alert broadcast are not particularly limited to the above example, and are digital. Various data corresponding to the above data can be used depending on the type of broadcast.

  The control unit 10 reads the current position information from the position information storage unit 23 and compares the current position of the mobile phone 1 with the alarm area specified by “area_code”. For example, the control unit 10 determines whether or not the current position of the mobile phone 1 is within the warning area of the emergency warning broadcast. The comparison process between the current position of the mobile phone 1 and the warning area of the emergency warning broadcast by the control unit 10 is not particularly limited to the above example, and the distance between the current position of the mobile phone 1 and the warning area of the emergency warning broadcast Various changes such as calculating and notifying the calculated distance are possible.

  The key 56 includes various operation buttons such as a numeric key and a cross key. For example, the key 56 is used for a user to input a reference warning level of emergency warning broadcasting or to set a warning action. The reference alarm level corresponds to the alarm level specified by the above “signal_level”. There are first and second reference alarm levels, and the second type signal used for the tsunami alarm can be selected on the receiver side so as not to be automatically activated. In the first embodiment, both the first type and the second type are received.

  When it is determined that the emergency alert broadcast needs to be received, the control unit 10 switches from the normal power saving state to the emergency alert broadcast power state in order to perform a predetermined emergency alert broadcast operation. Then, the audio decoder 18, the audio controller 19, the video decoder 16, the video controller 17, the speaker 21, the display 20, etc. are controlled to execute an emergency warning broadcast operation.

This embodiment is
The GPS antenna 30 , the position information receiving unit 31, and the position information storage unit 32 correspond to an example of a position acquisition unit (position information acquisition unit) . The digital broadcast antenna 11, the tuner 12, the demodulation / decoding unit 13, and the activation flag detection The unit 15 corresponds to an example of an alarm area acquisition unit, the control unit 10 corresponds to an example of a comparison unit, and includes a signal separation unit 14, a video decoding unit 16, a video control unit 17, an audio decoding unit 18, an audio control unit 19, The display 20 and the speaker 21 correspond to an example of warning means (alarm means) for performing an emergency warning broadcast operation, and the power control unit 42 corresponds to an example of a power control means. The display 20 corresponds to an example of a display unit, and the signal separation unit 14, the video decoding unit 16, the video control unit 17, the audio decoding unit 18, and the audio control unit 19 correspond to an example of a generation unit, and a digital broadcasting antenna. 11, the tuner 12 and the activation flag detection / detection unit 15 correspond to an example of a reception unit, the demodulation / decoding unit 13 corresponds to an example of an extraction unit, and the speaker 21 corresponds to an example of a warning notification unit.

  Next, the emergency alert broadcast reception process of the mobile phone 1 configured as described above will be described in detail. FIG. 2 is a flowchart for explaining emergency alert broadcast reception processing by the mobile phone 1 shown in FIG.

  As shown in FIG. 2, when the user turns on the main power supply of the mobile phone 1 and enters the standby state for emergency alert broadcasting, first, in step S1, power is supplied to the control unit 10, and the control unit 10 The power supply unit 42 is supplied with power for extracting only the carrier of TMCC to the tuner 12, and the battery 40 is controlled so that power is intermittently supplied to the activation flag detection unit 16. The battery 40 supplies power to the tuner 12 and intermittently supplies power to the activation flag detection unit 15, and the power supply state is set to the minimum power saving state. The intermittent driving at this time is set so as to be performed at intervals of 0.4 seconds, which is twice as long as the transmission cycle of 0.2 seconds of the transmission timing of the emergency warning broadcast activation flag set as default.

  Next, in step S <b> 2, the remaining amount of the battery 40 is detected by the remaining amount detection unit 41, and the detected remaining amount is notified to the control unit 10. In the present invention, the control circuit 10 performs control so that the power supply is adjusted in accordance with the remaining battery level, and power consumption can be reduced and the emergency warning broadcast optimal for the user can be received. Detected and notified to the control circuit 10.

  Next, it progresses to step S3 and the control part 10 judges whether the residual amount of the battery 40 is more than predetermined value. For example, when the remaining amount of the battery 40 is less than 2/3, the standby time can be increased, so that the power consumption is controlled to be further reduced. The predetermined value of the remaining amount is not limited to 2/3 and may be determined according to the use state. For example, when the user can easily charge the battery, if the user recognizes that the remaining amount has decreased even if the remaining amount is set to a low state such as 1/2 or 1/3. This is because charging may be performed. For this reason, in the present invention, the default is set to 2/3, but the user can set the predetermined value of the remaining amount to 1/2, 1/3, etc. using the key 56. .

  The control unit 10 determines whether or not the remaining battery level is equal to or greater than a predetermined value. If the remaining battery level is equal to or greater than the predetermined value, the control unit 10 proceeds to step S4 and sets the interval of intermittent driving to the first state. This intermittent driving in the first state is performed at an interval of 0.4 seconds set as a default.

  On the other hand, when the control unit 10 determines that the remaining battery level is less than the predetermined value in step S3, the process proceeds to step S5, and the intermittent drive interval is set to the second state. The intermittent drive in the second state is performed at an interval of 0.6 seconds in order to reduce power consumption and extend the standby time.

  Subsequently, the process proceeds to step S6, where the tuner 12 receives the terrestrial digital broadcast wave via the digital broadcast antenna 11, selects a specific frequency signal from the harmonic digital modulation signal, and selects the TMCC from the intermediate frequency signal. The carrier is extracted and output to the activation flag detection unit 15. The activation flag detection unit 15 detects the emergency warning broadcast flag of TMCC at the timing of the intermittent drive interval and determines whether or not the emergency warning broadcast is transmitted. To do. The activation flag detection unit 15 determines that the emergency alert broadcast is being transmitted when the TMCC emergency alert broadcast flag is “1”, and outputs the determination result to the control unit 10, and then the process proceeds to step S7. Is done. If the emergency alert broadcast flag is “0”, it is determined that the emergency alert broadcast is not sent, and the process returns to step S3 to repeat the above-described processing. In this embodiment, the activation flag detection unit 15 detects the activation flag at a timing twice as long as the transmission timing in the first state and at a timing three times as large as that in the second state. The detection timing is only a little delayed, and it does not cause much problem.

  When the emergency alert broadcast is transmitted, in step S7, the power supply control unit 42 determines the demodulation / decoding unit 13, the signal separation unit 14, the position information receiving unit 31, the position information storage unit 32, the video decoding unit 16, and the video control. Unit 17, speech decoding unit 18, speech control unit 19, display 20, and speaker 21, battery 40 is controlled so that the power state is switched from the minimum power saving state to the broadcast reception power state, and the mobile phone 1 will automatically start to receive emergency alert broadcasts.

  Next, in step S8, the received emergency alert broadcast is subjected to processing such as decoding, the content of the emergency alert broadcast is displayed on the display 20, and the sound of the emergency alert broadcast is output from the speaker 21.

  Next, in step S <b> 9, the position information receiving unit 31 receives GPS radio waves via the GPS antenna 30, detects the current position of the mobile phone 1, and stores position information indicating the current position in the position information storage unit 32. Remember me.

  Next, in step S <b> 10, the demodulation / decoding unit 13 extracts “start_end_flag” and “area_code” of the emergency information descriptor from the transport stream, and outputs them to the control unit 10.

Next, in step S11, the control unit (control means for determination control) 10 reads the current position information from the position information storage unit 32, and whether or not the current position is included in the warning area specified by “area_code”. Determine whether. When the current position is determined to be included in the warning area, the process proceeds to step S 12, and detects the battery remaining amount, and sends the detected remaining amount to the control unit 10.

  In the present invention, when the current position is included in the warning area, the monitoring state of the emergency warning broadcast is changed depending on the remaining battery level. That is, when the remaining battery level is sufficient, the timing for monitoring the emergency alert broadcast activation flag is advanced so that the emergency alert broadcast can be received promptly. Also, when the remaining battery level is low, the emergency alarm broadcast activation flag monitoring timing may be delayed, power consumption may be reduced, and emergency alert broadcast reception may be delayed in order to prevent the battery from running out. However, control is performed to increase the standby time for emergency alert broadcasting.

  For this reason, in step S12, the control unit 10 determines whether or not the remaining amount of the battery 40 is equal to or greater than a predetermined value. For example, when the remaining amount of the battery 40 is less than 2/3, the standby time can be increased, so that the power consumption is controlled to be further reduced. The predetermined value of the remaining amount is not limited to 2/3 as described above, and may be determined according to the use state or the like.

  The control unit 10 determines whether or not the remaining battery level is equal to or greater than a predetermined value. If the remaining battery level is equal to or greater than the predetermined value, the control unit 10 proceeds to step S13 and sets the intermittent drive interval to the third state. This intermittent driving in the third state is set at an interval of 0.2 seconds of the transmission cycle of the transmission timing of the emergency warning broadcast activation flag. By matching the transmission cycle of the emergency warning broadcast activation flag transmission timing, the timing for monitoring the emergency warning broadcast activation flag can be accelerated so that the emergency warning broadcast can be received promptly. This is to make it possible to quickly obtain information by emergency alert broadcasting and to quickly detect the danger information of the user.

  On the other hand, when the control unit 10 determines that the remaining battery level is less than the predetermined value in step S12, the process proceeds to step S14, and the intermittent drive interval is set to the fourth state. The intermittent driving in the fourth state is performed at intervals of 1 second in order to reduce power consumption and extend standby time. If you are in an alert area, it is preferable to be able to receive a quick emergency alert broadcast, but if the battery runs out, you will not be able to receive it. Therefore, if the remaining battery level is less than the predetermined value, the monitoring timing of the emergency broadcast activation flag is delayed, and the prompt reception of the emergency warning broadcast is sacrificed, but the emergency warning broadcast is received even if the monitoring timing is delayed. Is controlled to reduce power consumption and extend standby time.

  On the other hand, if it is determined in step S11 that the current position is not in the warning area, the process proceeds to step S14, and the intermittent drive interval is set to the fourth state at an intermittent drive interval of 1 second. When the user is not in the warning area, there is no problem even if the timing for viewing the emergency warning broadcast is delayed, so control is performed so that the monitoring timing is delayed in order to reduce power consumption.

  Next, after the processing of step S13 or step S14 is completed, in step S15, the control unit 10 determines “start_end_flag” stored in the PMT in the PSI extracted by the demodulation / decoding unit 13. When “start_end_flag” (start / end flag) is “1”, it indicates that an emergency warning signal is started or being broadcast, and when “start_end_flag” is “1”, the control unit 10 indicates that emergency warning broadcasting is If it is determined that the operation continues, the process returns to step S9 to repeat the above-described operation. Further, when “start_end_flag” becomes “0”, the control unit 10 determines that the emergency warning broadcast has ended and outputs the determination result to the power supply control unit 42. Then, the process proceeds to step S16, and the power saving state And the process returns to step S6 to continue the process. In the power saving state in step S16, the control unit 10 supplies power to the power supply control unit 42 for extracting only the carrier of TMCC to the tuner 12, and intermittently supplies power to the activation flag detection unit 16. The battery 40 is controlled. The battery 40 supplies power to the tuner 12 and intermittently supplies power to the activation flag detection unit 15, and the power supply state is set to the power saving state. The intermittent drive at this time is the interval set in step S13 or step S14.

  Through the above processing, in the present embodiment, position information indicating the current position of the mobile receiver is acquired by the GPS antenna 30, the position information receiving unit 31, and the position information storage unit 32, and the digital broadcasting antenna 11, the tuner is acquired. 12, the demodulating / decoding unit 13 and the activation flag detecting unit 15 acquire area information specifying an alarm area related to the emergency alarm broadcast from the emergency alarm broadcast, and the control unit 10 compares the position information with the area information, When the telephone 1 is present in the warning area, the video and audio by the emergency warning broadcast can be provided to the user in the warning area in an optimum state depending on the remaining battery level.

  Further, since the intermittent drive timing for detecting the emergency warning broadcast activation flag from the digital broadcast TMCC signal is controlled according to the remaining battery level, the power consumption according to the remaining battery level can be controlled. It is possible to obtain the optimum standby at the user position and the reception state of the emergency alert broadcast.

  Next explained is a mobile phone according to the second embodiment of the invention. FIG. 3 is a block diagram showing a configuration of a mobile phone according to the second embodiment of the present invention.

  In the first embodiment described above, when the activation flag is detected by the activation flag detection unit 15, the emergency alarm broadcast is received and displayed, so that the emergency alarm is irrelevant to the current position of the user. It also occurs when broadcasting is displayed. As a result, the battery is consumed. Therefore, in the second embodiment, when the current position of the user is in the warning area, the emergency warning broadcast is received and displayed, thereby reducing battery consumption and increasing the standby time. Is.

  Similar to the first embodiment, the mobile phone 1 shown in FIG. 3 includes a control unit 10 composed of a microcomputer and a digital broadcast antenna 11, a tuner 12, a demodulator / decoder as a function of receiving a digital television broadcast. Unit 13, signal separation unit 14, activation flag detection unit 15, video decoding unit 16, video control unit 17, audio decoding unit 18, audio control unit 19, display 20, and speaker 21.

  In addition, the mobile phone 1 includes a GPS antenna 30, a position information receiving unit 31, and a position information storage unit 32 based on the current position of the user.

  Furthermore, the mobile phone 1 includes a rechargeable battery 40, a remaining amount detection unit 41 that detects the remaining amount of the rechargeable battery 40, and a power control unit 42 that controls power supply to each block.

  The cellular phone 1 includes a mobile communication antenna 51, a mobile communication radio unit 52, a mobile communication modulation / demodulation unit 53, a microphone 54, a voice encoding unit 55, operation keys 56 such as a numeric keypad, and a key input unit 57 as functions of the telephone. Is provided. In the following description, the same parts as those in the first embodiment are denoted by the same reference numerals, detailed description thereof is omitted, and characteristic parts of the second embodiment are mainly described.

  The tuner 12 receives a terrestrial digital broadcast wave via the digital broadcast antenna 11, selects a signal of a specific frequency from the harmonic digital modulation signal, converts it to an intermediate frequency signal, demodulates and decodes 13, and Output to the activation flag detector 15.

  The demodulation / decoding unit 13 demodulates and decodes the intermediate frequency signal and outputs a transport stream signal to the signal separation unit 14. The signal separation unit 14 converts the transport stream signal, separates it into a video signal, an audio signal, and a control signal, and sends them to the control unit 10.

  When the activation flag detection unit 15 determines that an emergency warning broadcast is being transmitted, the demodulation / decoding unit 13 extracts PSI (Program Specific Information) from the transport stream, and the PMT (Program Specific Information) in the PSI “Start_end_flag”, “signal_level”, and “area_code” are extracted from the emergency information descriptor stored in the Program Map Table and sent to the control unit 10.

  The control unit 10 determines “start_end_flag”, “signal_level”, and “area_code”.

  “Signal_level” (signal type) is information indicating the warning level of emergency warning broadcasting, is composed of a 1-bit field, and corresponds to the type of emergency warning signal defined in Article 138-2 of the Radio Station Operation Rules. Yes. When “signal_level” is “1”, it indicates that the emergency alert signal to be broadcast is the first type start signal. When “signal” is “0”, it indicates that the emergency alert signal to be broadcast is the second type start signal. Show.

  In the second embodiment, using the key 56, the user inputs a reference warning level for emergency warning broadcasting or sets a warning action. The reference alarm level corresponds to the alarm level specified by the above “signal_level”. There are first and second reference alarm levels, and the second type signal used for the tsunami alarm can be selected on the receiver side so as not to be automatically activated. When the user wishes to notify the emergency warning broadcast of the second type signal (tsunami), the user inputs “2” using the key 56. Information input from the key 56 is determined by the key input unit 57, and the reference alarm level input by the user is stored in the storage unit 10 a in the control unit 10.

  In the second embodiment, the activation flag detector 15 detects the TMCC emergency warning broadcast activation flag from the intermediate frequency signal from the tuner 12, and the emergency warning broadcast activation flag is “1”. It is determined that the alarm broadcast is being transmitted, and on the other hand, when the emergency alarm broadcast activation flag is “0”, it is determined that the emergency alarm broadcast is not being transmitted, and the determination result is output to the control unit 10.

  When the activation flag detection unit 15 determines that an emergency warning broadcast is being sent, the demodulation / decoding unit 13 switches the power state from the minimum power saving state to the normal power saving state, which is an example of the first power state. The battery 40 is controlled so as to supply power to the position information receiving unit 31 and the position information storage unit 32.

  If the activation flag detector 15 determines that an emergency warning broadcast is being sent, the position information receiver 31 receives GPS radio waves transmitted from the satellite via the GPS antenna 30, and The current position of the mobile phone, that is, the current position of the user is detected using the GPS distance measurement method, and position information representing the current position is output to the position information storage unit 32. The position information storage unit 23 stores position information.

  Further, when the activation flag detection unit 15 determines that the emergency warning broadcast is being transmitted, the demodulation / decoding unit 13 extracts “start_end_flag”, “signal_level”, and “area_code” from the transport stream, and the control unit 10 is output.

  Note that the information indicating that the emergency alert broadcast is being performed, the region information specifying the alarm region related to the emergency alert broadcast, and the information indicating the alert level of the emergency alert broadcast are not particularly limited to the above example, and are digital. Various data corresponding to the above data can be used depending on the type of broadcast.

  The control unit 10 reads the current position information from the position information storage unit 32, compares the current position of the mobile phone with the alarm area specified by “area_code”, and the current position of the mobile phone is the alarm area of the emergency warning broadcast. It is determined whether or not it is inside.

  The reference alarm level set by the user corresponds to the alarm level specified by the above “signal_level”. For example, when the user wishes to notify the emergency warning broadcast of the second type start signal (tsunami), the user Uses the key 56 to input “2”. The reference alarm level input by the user is stored in the storage unit 10 a of the control unit 10. In this embodiment, the smaller the reference alarm level value, the higher the alarm level.

  When the reference alarm level is not stored in the storage unit 10a of the control unit 10, the control unit 10 determines whether or not the current position of the mobile phone is within the warning area of the emergency warning broadcast, thereby warning the emergency warning broadcast. It is determined whether or not is necessary. If it is determined that a warning is necessary, the power control unit 42 is instructed to switch from the normal power saving state to the emergency warning broadcast reception power state in order to perform a predetermined emergency warning broadcast warning operation, and then the voice decoding is performed. The unit 18, the audio control unit 19, the video decoding unit 16, the video control unit 17, the speaker 21, the display 20, and the like are controlled to execute an emergency warning broadcast operation.

  When the reference alarm level is stored in the storage unit 10a, the control unit 10 reads out the reference alarm level stored in the alarm level storage unit 26, and the alarm level specified by “signal_level” is equal to or higher than the reference alarm level. It is determined whether there is an alarm, and whether the current location of the mobile phone is within the alarm area of the emergency alert broadcast, determines that an alert by the emergency alert broadcast is necessary, and is specified by “signal_level” When the alarm level is equal to or higher than the reference alarm level, it is determined that a warning is necessary. When the alarm level specified by “signal_level” is not equal to or higher than the reference alarm level, it is determined that the warning is unnecessary.

  For example, when the storage unit 10a “2” is stored, it is determined that a warning is required from the current position of the mobile phone and only when “signal_level” is “1”, the current position of the mobile phone and the warning area And a warning action specified from the alarm level and the alarm level. Further, when “2” is stored in the alarm level storage unit 26, when “signal_level” is “1”, the above-described warning operation is performed, and when “signal_level” is “2”, the mobile phone A warning action specified from the positional relationship between the current position and the warning area and the warning level is performed.

  Note that the reference alarm level stored in the storage unit 10a is not particularly limited to the above example, and what is stored in advance in the storage unit 10a at the time of manufacture or the like, or a plurality of reference alarm levels are stored, Various changes such as changing the warning operation for each alarm level are possible.

  Next, the emergency alert broadcast reception process of the mobile phone 1 configured as described above will be described in detail. FIG. 4 is a flowchart for explaining emergency alert broadcast reception processing by the mobile phone 1 shown in FIG.

  As shown in FIG. 4, when the user turns on the main power supply of the mobile phone 1 and enters a standby state for emergency alert broadcasting, first, in step S21, power is supplied to the control unit 10, and the control unit 10 The power supply unit 42 is supplied with power for extracting only the carrier of TMCC to the tuner 12, and the battery 40 is controlled so that power is intermittently supplied to the activation flag detection unit 16. The battery 40 supplies power to the tuner 12 and intermittently supplies power to the activation flag detection unit 15, and the power supply state is set to the minimum power saving state. The intermittent driving at this time is performed at intervals of 0.4 seconds, which is twice as long as the transmission cycle of 0.2 seconds of the transmission timing of the emergency warning broadcast activation flag set as default as in the first embodiment. Set to do.

  Next, in step S22, the remaining amount of the battery 40 is detected by the remaining amount detection unit 41, and the detected remaining amount is notified to the control unit 10. In the present invention, the control circuit 10 performs control so that the power supply is adjusted in accordance with the remaining battery level, and power consumption can be reduced and the emergency warning broadcast optimal for the user can be received. Detected and notified to the control circuit 10.

  Next, it progresses to step S23 and the control part 10 judges whether the residual amount of the battery 40 is more than predetermined value. In the present invention, the default is set to 2/3, but the user can set the predetermined value of the remaining amount to 1/2, 1/3 or the like by using the key 56.

  The control unit 10 determines whether or not the battery remaining amount is equal to or greater than a predetermined value. If the remaining amount is equal to or greater than the predetermined value, the control unit 10 proceeds to step S24 and sets the interval of intermittent driving to the first state. This intermittent driving in the first state is performed at an interval of 0.4 seconds set as a default.

  On the other hand, when the control unit 10 determines that the remaining battery level is less than the predetermined value in step S23, the process proceeds to step S25, and the intermittent drive interval is set to the second state. The intermittent drive in the second state is performed at an interval of 0.6 seconds in order to reduce power consumption and extend the standby time.

  Subsequently, the process proceeds to step S26, where the tuner 12 receives the terrestrial digital broadcast wave via the digital broadcast antenna 11, selects a specific frequency signal from the harmonic digital modulation signal, and selects the TMCC from the intermediate frequency signal. The carrier is extracted and output to the activation flag detection unit 15. The activation flag detection unit 15 detects the emergency warning broadcast flag of TMCC at the timing of the intermittent drive interval and determines whether or not the emergency warning broadcast is transmitted. To do. When the activation flag detection unit 15 determines that the emergency warning broadcast is being transmitted, the determination result is output to the control unit 10, and then the process proceeds to step S27. If it is determined that the emergency alert broadcast is not transmitted, the process returns to step S23 and the above-described processing is repeated.

  When the emergency warning broadcast is transmitted, in step S27, the power supply control unit 42 switches the demodulating / decoding unit 13 to switch the power state from the minimum power saving state to the normal power saving state that is an example of the first power state. The battery 40 is controlled so as to supply power to the position information receiving unit 31 and the position information storage unit 32.

  Next, in step S <b> 28, the position information receiving unit 31 receives GPS radio waves via the GPS antenna 30, detects the current position of the mobile phone 1, and stores position information indicating the current position in the position information storage unit 32. Remember me.

  Subsequently, in step S29, the demodulation / decoding unit 13 extracts “start_end_flag”, “signal_level”, and “area_code” of the emergency information descriptor from the transport stream, and sends “area_code” and “signal_level” to the control unit 10. Output and get alarm information.

  Next, in step S <b> 30, the control unit 10 reads the current position information from the position information storage unit 32, and determines whether or not the current position is included in the alarm area specified by “area_code”. If it is determined that the current position is included in the warning area, the process proceeds to step S31. If the current position is not included in the current position alarm area, the emergency alarm broadcast receiving operation is not performed and the process proceeds to step S37.

  When it is determined that the current position is included in the alarm area, in step S31, the control unit 10 reads the reference alarm level stored in the storage unit 10a when the reference alarm level is stored in the storage unit 10a. , It is determined whether or not the alarm level specified by “signal_level” is equal to or higher than the reference alarm level, and if the alarm level specified by “signal_level” is equal to or higher than the reference alarm level, it is determined that an alarm is necessary. The process proceeds to step S32. If the alarm level specified by “signal_level” is not equal to or higher than the reference alarm level, it is determined that the alarm report is unnecessary, and the process proceeds to step S37. In addition, when the reference | standard warning level is not memorize | stored in the memory | storage part 10a, the control part 10 judges that a warning is required by judging that the present position is contained in a warning area.

  In step S32, the power supply control unit 42 includes the demodulation / decoding unit 13, the signal separation unit 14, the position information reception unit 31, the position information storage unit 32, the video decoding unit 16, the video control unit 17, the audio decoding unit 18, and the audio control. The battery 40 is controlled to supply power to the unit 19, the display 20, and the speaker 21, the power supply state is switched from the minimum power saving state to the broadcast reception power state, and the mobile phone 1 receives the emergency warning broadcast. It will start automatically.

  Next, in step S <b> 33, the received emergency alert broadcast is subjected to processing such as decoding, the content of the emergency alert broadcast is displayed on the display 20, and the emergency alert broadcast sound is output from the speaker 21. In step S34, the remaining amount of the battery 40 is detected.

  Also in the second embodiment, when the current position is included in the warning area, the monitoring state of the emergency warning broadcast is changed depending on the remaining battery level. That is, when the remaining battery level is sufficient, the timing for monitoring the emergency alert broadcast activation flag is advanced so that the emergency alert broadcast can be received promptly. Also, when the remaining battery level is low, the emergency alarm broadcast activation flag monitoring timing may be delayed, power consumption may be reduced, and emergency alert broadcast reception may be delayed in order to prevent the battery from running out. However, control is performed to increase the standby time for emergency alert broadcasting.

  For this reason, in step S35, the control unit 10 determines whether or not the remaining amount of the battery 40 is equal to or greater than a predetermined value. For example, when the remaining amount of the battery 40 is less than 2/3, the standby time can be increased, so that the power consumption is controlled to be further reduced. The predetermined value of the remaining amount is not limited to 2/3 as described above, and may be determined according to the use state or the like.

  The control unit 10 determines whether or not the remaining battery level is equal to or greater than the predetermined value. If the remaining battery level is equal to or greater than the predetermined value, the control unit 10 proceeds to step S36 and sets the intermittent drive interval to the third state. This intermittent driving in the third state is set at an interval of 0.2 seconds of the transmission cycle of the transmission timing of the emergency warning broadcast activation flag. By matching the transmission cycle of the emergency warning broadcast activation flag transmission timing, the timing for monitoring the emergency warning broadcast activation flag can be accelerated so that the emergency warning broadcast can be received promptly. This is to make it possible to quickly obtain information by emergency alert broadcasting and to quickly detect the danger information of the user.

  On the other hand, when the control unit 10 determines that the remaining battery level is less than the predetermined value in step S35, the process proceeds to step S37, where the intermittent drive interval is set to the fourth state. The intermittent driving in the fourth state is performed at intervals of 1 second in order to reduce power consumption and extend standby time. If you are in an alert area, it is preferable to be able to receive a quick emergency alert broadcast, but if the battery runs out, you will not be able to receive it. Therefore, if the remaining battery level is less than the predetermined value, the monitoring timing of the emergency broadcast activation flag is delayed, and the prompt reception of the emergency warning broadcast is sacrificed, but the emergency warning broadcast is received even if the monitoring timing is delayed. Is controlled to reduce power consumption and extend standby time.

  On the other hand, if it is determined in step S30 that the current position is not an alarm area, or if it is determined in step S31 that an alarm is not required, the process proceeds to step S37, and intermittent driving is performed at an interval of 1 second. Is set to the fourth state. When the user is not in the warning area, there is no problem even if the timing for viewing the emergency warning broadcast is delayed, so control is performed so that the monitoring timing is delayed in order to reduce power consumption.

  Next, after the processing of step S36 or step S37 is completed, in step S38, the control unit 10 determines “start_end_flag” stored in the PMT in the PSI extracted by the demodulation / decoding unit 13. When “start_end_flag” (start / end flag) is “1”, it indicates that an emergency warning signal is started or being broadcast, and when “start_end_flag” is “1”, the control unit 10 indicates that emergency warning broadcasting is If it is determined that the process continues, the process returns to step S28 to repeat the above-described operation. Further, when “start_end_flag” becomes “0”, the control unit 10 determines that the emergency warning broadcasting has ended and outputs the determination result to the power supply control unit 42. Then, the process proceeds to step S39, where the power saving state And the process returns to step S26 to continue the process. The power saving state in step S39 is such that the control unit 10 supplies power to the power supply control unit 42 to extract only the carrier of TMCC to the tuner 12 and supplies power to the activation flag detection unit 16 intermittently. The battery 40 is controlled. The battery 40 supplies power to the tuner 12 and intermittently supplies power to the activation flag detection unit 15, and the power supply state is set to the power saving state. The intermittent drive at this time is the interval set in step S36 or step S37.

  Through the above processing, in the present embodiment, position information indicating the current position of the mobile receiver is acquired by the GPS antenna 30, the position information receiving unit 31, and the position information storage unit 32, and the digital broadcasting antenna 11, the tuner is acquired. 12, the demodulating / decoding unit 13 and the activation flag detecting unit 15 acquire area information specifying an alarm area related to the emergency alarm broadcast from the emergency alarm broadcast, and the control unit 10 compares the position information with the area information, When the telephone 1 is present in the warning area, the video and audio by the emergency warning broadcast can be provided to the user in the warning area in an optimum state depending on the remaining battery level.

In addition, when it is determined that an emergency warning broadcast should be notified to the user, the power supply control unit 42 changes the power supply state from the normal power saving state (first power supply state) to the alarm power state (second power supply state) . Switched
Until it is determined that the emergency alert broadcast should be notified to the user, power is supplied to the demodulator / decoder 13, the signal separator 14, each circuit for reproducing video and audio, the display 20 and the speaker 21. Therefore, unnecessary power consumption can be suppressed. As a result, even when the position of the mobile reception device moves, warning information required by the user can be accurately presented to the user without consuming electric power unnecessarily.

  Further, since the intermittent drive timing for detecting the emergency warning broadcast activation flag from the digital broadcast TMCC signal is controlled according to the remaining battery level, the power consumption according to the remaining battery level can be controlled. It is possible to obtain the optimum standby at the user position and the reception state of the emergency alert broadcast.

  In the above-described embodiment, the mobile phone capable of receiving digital broadcasting has been described as the mobile reception device. However, the present invention can be applied not only to the mobile phone but also to a portable information terminal and a notebook computer.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is shown not by the above description of the embodiments but by the scope of claims for patent, and is intended to include all modifications within the meaning and scope equivalent to the scope of claims for patent.

It is a block diagram which shows the structure of the mobile telephone as a mobile receiver by 1st Embodiment of this invention. It is a flowchart for demonstrating the emergency alert broadcast receiving process by the mobile telephone shown in FIG. It is a block diagram which shows the structure of the mobile telephone as a mobile receiver by 2nd Embodiment of this invention. It is a flowchart for demonstrating the emergency alert broadcast receiving process by the mobile telephone shown in FIG.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Mobile phone, 10 Control part, 11 Digital broadcasting antenna, 12 Tuner, 13 Demodulation / decoding part, 14 Signal separation part, 15 Activation flag detection part, 16 Video decoding part, 17 Video control part, 18 Audio decoding part, 19 Audio control unit, 20 display, 21 speaker 2, 30 GPS antenna, 31 position information reception unit, 32 position information storage unit, 40 rechargeable battery, 41 remaining amount detection unit, 42 power supply control unit.

Claims (2)

A battery as a power source;
A remaining amount detecting means for detecting the remaining amount of the battery;
Receiving means for receiving digital broadcasting and extracting information indicating that emergency alert broadcasting is being performed;
Alarm means for informing the user of alarm information based on the emergency alarm broadcast;
Power control means for switching between a first power supply state for supplying power to the receiving means and a second power supply state for supplying power to the receiving means and the alarm means;
Position information acquisition means for acquiring position information indicating the position of current reception by the reception means;
An alarm area acquisition means for acquiring area information for specifying an alarm area related to emergency alert broadcasting;
Determining means for determining whether or not the position of the reception is included in the alarm area based on the position information acquired by the position information acquisition means and the area information acquired by the alarm area acquisition information means;
Controlling the interval of the extraction timing by the receiving means according to the remaining battery level and the reception position, and determining whether the digital broadcast received by the receiving means is performing the emergency warning broadcast, The power supply control means maintains the first power supply state until it is determined that an emergency warning broadcast is being performed, and when it is determined that an alarm is being performed, the power supply control means switches to the second power supply state. Control means for judgment control to be switched,
Said control means for determining control, in response to said position of the battery remaining amount and the received first state interval default interval of the extraction timing, the second of said longer intervals than the interval of the first state A mobile reception device that sets a third state having an interval shorter than the interval of the first state, and a fourth state having an interval longer than the interval of each state,
The control unit for determination control sets the extraction timing interval to the first state when the remaining battery amount is equal to or greater than a predetermined amount, and the extraction timing interval when the remaining battery amount is less than the predetermined amount. Is set to a second state that is longer than the first state, and when the reception position is included in an alarm area and the remaining battery level is equal to or greater than a predetermined amount, the third state is set, and The mobile reception device is set to the fourth state when the position is included in an alarm area and the remaining battery level is less than a predetermined amount or when the reception position is not included in the alarm area. 2. The mobile receiver according to claim 1, wherein the determination unit is a control unit that is a control unit for the determination control.

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