EP3121977A1 - Empfangsvorrichtung - Google Patents

Empfangsvorrichtung Download PDF

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Publication number
EP3121977A1
EP3121977A1 EP16179179.3A EP16179179A EP3121977A1 EP 3121977 A1 EP3121977 A1 EP 3121977A1 EP 16179179 A EP16179179 A EP 16179179A EP 3121977 A1 EP3121977 A1 EP 3121977A1
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EP
European Patent Office
Prior art keywords
reception
broadcast
evaluation value
unit
value
Prior art date
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Application number
EP16179179.3A
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English (en)
French (fr)
Inventor
Mineo Konno
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Alps Green Devices Co Ltd
Alps Alpine Co Ltd
Original Assignee
Alps Electric Co Ltd
Alps Green Devices Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Alps Electric Co Ltd, Alps Green Devices Co Ltd filed Critical Alps Electric Co Ltd
Publication of EP3121977A1 publication Critical patent/EP3121977A1/de
Withdrawn legal-status Critical Current

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04HBROADCAST COMMUNICATION
    • H04H20/00Arrangements for broadcast or for distribution combined with broadcast
    • H04H20/20Arrangements for broadcast or distribution of identical information via plural systems
    • H04H20/22Arrangements for broadcast of identical information via plural broadcast systems
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04HBROADCAST COMMUNICATION
    • H04H2201/00Aspects of broadcast communication
    • H04H2201/60Aspects of broadcast communication characterised in that the receiver comprises more than one tuner

Definitions

  • the present invention relates to a radio broadcast reception apparatus capable of receiving both of a digital audio broadcast and a radio data system broadcast.
  • DAB digital audio broadcasting
  • FM/AM broadcasting has been conventionally used, and a reception apparatus that receives broadcasts by switching between digital broadcasting and FM/AM broadcasting has been used.
  • RDS radio data system
  • auxiliary data is inserted into a band of FM radio broadcasting and provided, and is used for, for example, traffic information.
  • Information for identifying the contents of a program that is broadcast by RDS is transmitted, and a reception apparatus can identify a program using the data.
  • Both of DAB broadcasts and FM radio broadcasts are used, and the same programs are broadcast in a DAB broadcast and an FM radio broadcast. Switching can also be performed such that a DAB broadcast is received when the reception quality of the DAB broadcast is high, and an FM radio broadcast is received when the reception quality of the DAB broadcast is low. Since a DAB broadcast is a digital broadcast, information for identifying a program is included in a DAB broadcast, and since for an FM broadcast, a program can also be identified by RDS, both are managed by a database, and the same programs are identified by referring to the database, such that switching between the programs is technically possible. For example, PCT Japanese Translation Patent Publication No. 2014-523153 discloses that a DAB broadcast and the RDS of the same broadcast are switched between based on only the BER of the DAB broadcast.
  • the listening quality is degraded such as there being sound skips due to frequent switching of broadcasts. Further, since references for determining switching may not be accurate and broadcasts with a high quality may not be able to be received, there is room for further improvement in the reception quality in a reception apparatus as a whole.
  • the present invention provides a reception apparatus in which the reception quality is improved by appropriately performing appropriate broadcast tuning.
  • a reception apparatus includes a tuning reception unit configured to receive a tuned broadcast among a plurality of broadcast waves of an analog broadcast and a digital broadcast; a back scan reception unit configured to sequentially receive the plurality of broadcast waves; a reception evaluation unit configured to generate, for each broadcast wave, a reception evaluation value that is an evaluation value of a reception quality of a broadcast wave having the same service ID as the tuned broadcast wave among the broadcast waves received by the back scan reception unit; and a tuning unit configured to determine a broadcast wave that is to be tuned from the plurality of broadcast waves having the same service ID based on the reception evaluation value.
  • the reception evaluation value is obtained for each of a plurality of broadcast waves of the analog broadcast and the digital broadcast and tuning is performed based on the reception evaluation value, the reception quality is evaluated for the analog broadcast as well as the digital broadcast. Since the tuning is performed based on the evaluation of both of the analog broadcast and the digital broadcast, it is possible to determine the broadcast waves that can be received with high quality and realize stable tuning switching.
  • the tuning reception unit includes a first tuning reception unit configured to receive a tuned broadcast among a plurality of digital broadcasts; and a second tuning reception unit configured to receive a tuned broadcast among a plurality of analog broadcasts
  • the back scan reception unit includes a first back scan reception unit configured to sequentially receive the plurality of digital broadcast waves; and a second back scan reception unit configured to sequentially receive the plurality of analog broadcast waves.
  • the reception evaluation unit generates a new reception evaluation value based on a previous reception evaluation value at predetermined time intervals.
  • the reception evaluation unit evaluates the reception quality according to a plurality of evaluation items, obtains an increase and decrease value of the reception evaluation value for each of the evaluation items, and adds or subtracts the obtained increase and decrease value to or from the reception evaluation value to update the reception evaluation value.
  • the reception evaluation value is obtained using the evaluation items in a composite manner instead of using a single evaluation item, the accuracy of calculation of the reception evaluation value is improved and broadcast waves that can be received with high quality can be determined.
  • the reception evaluation unit when the reception evaluation value for a predetermined broadcast wave is smaller than a certain value, the reception evaluation unit further decreases the reception evaluation value.
  • the reception evaluation value is obtained within a range with common upper and lower limit values for each broadcast wave, and the reception evaluation unit sets the reception evaluation value to be the same as the upper limit value when the reception evaluation value is greater than the upper limit value due to the increase and decrease value being added, and sets the reception evaluation value to be the same as the lower limit value when the reception evaluation value is smaller than the lower limit value due to the increase and decrease value being subtracted.
  • the reception evaluation value is not increased when the reception evaluation value is equal to or greater than an upper limit value, and the reception evaluation value is not decreased when the reception evaluation value is equal to or smaller than a lower limit value, a reception evaluation value that can be compared in each of a plurality of broadcast waves can be generated and compared, and the broadcast waves that can be received with high quality can be selected.
  • the reception evaluation unit obtains the reception evaluation value for the analog broadcast and the reception evaluation value for the digital broadcast using different references, and sets any of the reception evaluation values to be within ranges of common upper and lower limit values.
  • the analog broadcast and the digital broadcast can be compared with each other by matching the upper and lower limit values of the reception evaluation value with each other to obtain a common range, and the broadcast waves that can be received with high quality can be selected.
  • the tuning unit compares the reception evaluation value for the analog broadcast with the reception evaluation value for the digital broadcast, tunes the broadcast waves of the analog broadcast in a case in which the reception evaluation value for the analog broadcast is great, and tunes the broadcast waves of the digital broadcast in a case in which the reception evaluation value for the digital broadcast is great.
  • a suitable reception method includes a first step of receiving a tuned broadcast among a plurality of broadcast waves of an analog broadcast and a digital broadcast; a second step of sequentially receiving the plurality of broadcast waves; a third step of generating, for each broadcast wave, a reception evaluation value that is an evaluation value of a reception quality of the broadcast wave having the same service ID as the tuned broadcast wave among the broadcast waves received in the second step; and a fourth step of determining a broadcast wave that is to be tuned from the plurality of broadcast waves having the same service ID based on the reception evaluation value.
  • a preferred computer program product comprises software code sections that cause a computer of a reception apparatus to execute: a first step of receiving a tuned broadcast among a plurality of broadcast waves of an analog broadcast and a digital broadcast; a second step of sequentially receiving the plurality of broadcast waves; a third step of generating, for each broadcast wave, a reception evaluation value that is an evaluation value of a reception quality of the broadcast wave having the same service ID as the tuned broadcast wave among the broadcast waves received in the second step; and a fourth step of determining a broadcast wave that is to be tuned from the plurality of broadcast waves having the same service ID based on the reception evaluation value.
  • the present invention it is possible to provide a reception apparatus in which the reception quality is improved by appropriately performing appropriate broadcast tuning.
  • Fig. 1 is a block diagram illustrating a reception apparatus according to an embodiment of the present invention.
  • the reception apparatus according to this embodiment includes a first reception unit 100 that receives a digital broadcast, a second reception unit 200 that receives an analog broadcast and a RDS, a reception evaluation unit 300, and an audio output unit 360.
  • the first reception unit 100 includes a first tuning reception unit 110 that receives a tuned broadcast among a plurality of digital broadcasts, a first back scan reception unit 120 that sequentially receives a plurality of digital broadcast waves, and a tuning unit 130.
  • the first reception unit 100 receives a DAB broadcast received from an antenna 101.
  • the received DAB broadcast is sent to each of a tuner 111 and a tuner 121.
  • Each of the tuner 111 and the tuner 121 includes a local oscillator, a mixer, a filter, and an A/D converter, and receives a received broadcast and then processes an analog signal into a digital signal.
  • the filter is used for anti-aliasing and image removal.
  • the first tuning reception unit 110 receives a tuned broadcast among a plurality of digital broadcasts, and the first back scan reception unit 120 does not tune a specific broadcast, but sequentially receives a plurality of digital broadcast waves. Since the first back scan reception unit 120 is not capable of simultaneously processing a plurality of broadcasts, the first back scan reception unit 120 receives the broadcasts while switching, for example, frequencies of the broadcasts that are reception targets at certain time intervals, and sends a result of the reception based on an RDS signal in the broadcast to a reception evaluation unit 300 to be described below.
  • Each of the processing unit 112 and the processing unit 122 includes a demodulator and a DAB decoder, and processes the signal sent from the tuner 111 and the tuner 121, through the demodulator and the DAB decoder, and sends a resultant signal to the tuning unit 130.
  • the tuning unit 130 performs a tuning process. The tuning is also performed at a point in time of the first tuning reception unit 110, but since a broadcast signal is sent from the second reception unit 200, the tuning unit 130 determines which signal is selected and audio-output on the basis of a signal sent from the reception evaluation unit 300.
  • the tuning unit 130 particularly, determines a broadcast wave that is to be tuned from a plurality of broadcast waves having the same service ID on the basis of the reception evaluation value sent from the reception evaluation unit 300.
  • the same service ID is assigned to broadcasts having the same content. That is, the broadcasts having the same content are performed at a plurality of broadcast waves (stations).
  • the tuning unit 130 executes audio switching at an appropriate point in time between the audio output from the first reception unit 100 and the audio output from the second reception unit 200 by measuring respective timings.
  • the second reception unit 200 includes the second tuning reception unit 210 that receives a tuned broadcast among a plurality of analog broadcasts, and a second back scan reception unit 260 that sequentially receives a plurality of analog broadcast waves.
  • the second reception unit 200 receives an FM/AM broadcast received from an antenna 201 and an FM broadcast received from an antenna 202.
  • the FM/AM broadcast received from the antenna 201 is sent to the second tuning reception unit 210, and the FM broadcast received from the antenna 202 is sent to the second tuning reception unit 210 and the second back scan reception unit 260.
  • the FM broadcast received from the antenna 202 is sent to a tuner 213 and a tuner 261.
  • Each of the tuner 211, the tuner 213, and the tuner 261 includes a local oscillator, a mixer, a filter, and an A/D converter, and receives the received broadcast and processes an analog signal into a digital signal.
  • the filter is used for anti-aliasing and image removal.
  • the second tuning reception unit 210 receives a tuned broadcast among a plurality of FM broadcasts, and the second back scan reception unit 260 does not tune a specific broadcast and sequentially receives a plurality of digital broadcast waves. Since the second back scan reception unit 260 is not capable of simultaneously processing a plurality of broadcasts, the second back scan reception unit 260 receives the broadcasts while switching, for example, frequencies of the broadcasts that are reception targets at certain time intervals, and sends a result of the reception based on an RDS signal in the broadcast to a reception evaluation unit 300 to be described below.
  • a processing unit 212 includes a diversity circuit, an analog demodulator, an RDS demodulator/decoder, and a radio standard emulator.
  • the diversity circuit radio waves of which a reception state is good among the FM broadcasts sent from the tuner 211 and the tuner 213 are selectively received, and a signal is processed through the analog demodulator, the RDS demodulator/decoder, and the radio standard emulator and sent to the tuning unit 130, an audio processing unit 204, and the reception evaluation unit 300.
  • a processing unit 262 includes an analog demodulator, an RDS demodulator/decoder, and a radio standard emulator, and processes a signal through these and sends a resultant signal to the reception evaluation unit 300.
  • the audio processing unit 204 converts the broadcasting signal sent from the tuning unit 130 into an audio output, and sends the audio output to the audio output unit 360.
  • the audio output unit 360 reproduces the sound output using a speaker or the like.
  • first tuning reception unit 110, the first back scan reception unit 120, the second tuning reception unit 210, and the second back scan reception unit 260 can be regarded as another combination. That is, the first tuning reception unit 110 and the second tuning reception unit 210 may be tuning reception units that receive a tuned broadcast among a plurality of broadcast waves of the analog broadcast and the digital broadcast. Further, the first back scan reception unit 120 and the second back scan reception unit 260 may be back scan reception units that sequentially receive the plurality of broadcast waves.
  • the reception evaluation unit 300 generates, for each broadcast wave, a reception evaluation value that is an evaluation value of reception quality of the broadcast waves having the same service ID as that of the tuned broadcast waves among the broadcast waves received by the back scan reception unit (the first back scan reception unit 120 and the second back scan reception unit 260).
  • a reception evaluation value that is an evaluation value of reception quality of the broadcast waves having the same service ID as that of the tuned broadcast waves among the broadcast waves received by the back scan reception unit (the first back scan reception unit 120 and the second back scan reception unit 260).
  • Fig. 2 is a diagram illustrating the reception evaluation value.
  • the reception evaluation unit 300 generates reception quality information 400 included in the digital broadcast received by the first back scan reception unit 120 and reception quality information 410 received by the second back scan reception unit 260, and generates reception evaluation information 420 based on the reception quality information 400 and the reception quality information 410.
  • the reception evaluation unit 300 sends a reception evaluation value (a degree of reliability)based on the reception evaluation information 420 to the first reception unit 100 and the second reception unit 200, and the tuning unit 130 performs a tuning process.
  • the reception evaluation unit 300 includes a DAB control unit 310, an FM/AM control unit 320, a back scan control unit 330, a database management unit 340, and a database 350.
  • the DAB control unit 310 receives information on the quality of the DAB broadcast sent from the first reception unit 100, generates the reception quality information 400, and sends the reception quality information 400 to the database management unit 340.
  • the back scan control unit 330 receives information on the quality of the FM broadcast included in the RDS, which is sent from the second back scan reception unit 260, generates the reception quality information 410, and sends the reception quality information 410 to the database management unit 340.
  • the DAB control unit 310 performs SPI communication with the first reception unit 100.
  • the DAB control unit 310 issues a command to the first tuning reception unit 110 through the SPI communication to acquire information. Accordingly, the DAB control unit 310 acquires information on audio signal quality, such as S/N or BER.
  • the DAB control unit 310 acquires information through command processing for each tuning with respect to the first back scan reception unit 120 through SPI communication. That is, tuning is performed for each channel by a back scan, service information such as EID or SID is acquired, and information on signal quality such as a frequency, S/N, or BER is acquired.
  • the reception quality information 400 obtained as above includes a reception frequency, S/N (SNR), BER (FICBER), a time difference of a seamless link, an a detection time of seamless time difference for each service ID.
  • SNR reception frequency
  • FECBER BER
  • a time difference of a seamless link an a detection time of seamless time difference for each service ID.
  • information on the reception quality is arranged for each service ID.
  • S/N is a ratio of a signal to noise, but is assumed to be a ratio of a signal intensity (field intensity: RSSI) at a center frequency to a signal intensity at a frequency slightly apart from an end of a frequency band.
  • a frequency slightly apart from the end of the frequency band is a frequency at which there should be no broadcast waves and is a frequency close to a channel to be received.
  • the BER is an abbreviation of a bit error rate (ratio), and is a code error rate.
  • a data stream is greatly divided into two types of a header portion and an actual data portion, and FICBER is an error rate of the header portion in the data stream of the digital broadcast.
  • the FM/AM control unit 320 and the back scan control unit 330 perform IIC communication with the second reception unit 200.
  • the FM/AM control unit 320 issues a command to the second tuning reception unit 210 to acquire information through the IIC communication. Accordingly, the FM/AM control unit 320 acquires information on audio signal quality such as S/N or BER.
  • the back scan control unit 330 acquires information through command processing for each tuning with respect to the second back scan reception unit 260 through IIC communication. That is, tuning is performed for each channel by back scan, service information such as RDS, including PI, is acquired, and information on the signal quality such as a frequency or RSSI is acquired.
  • the reception quality information 410 obtained as above includes information on acquisition of a frequency, RSSI, and RDSPI for each service ID. In the reception quality information 410, information on the reception quality is arranged for each service ID.
  • the reception quality information 400 is information sent from the first reception unit 100, the reception quality information 400 is broadcast quality for the DAB broadcast, and since the reception quality information 410 is information sent from the second reception unit 200, the reception quality information 410 is broadcast quality for the FM broadcast. Accordingly, the reception quality information is information based on different reference, as illustrated in Fig. 2 .
  • the information with the different reference is sent to the database management unit 340, and the database management unit 340 re-builds the information as a reference of common data to generate the reception evaluation information 420.
  • the reception evaluation information 420 is stored in the database 350.
  • the reception evaluation information 420 is arranged in an order of the reception evaluation values for each service ID. That is, a service having a greatest reception evaluation value is first arranged, a service having a next reception evaluation value is arranged in next, and a service having a smallest reception evaluation value is last arranged.
  • the reception evaluation information 420 includes both of an item included in the reception quality information 400 and an item included in the reception quality information 410. Accordingly, items that are not included in the DAB broadcast are blanks, and items that are not included in the FM broadcast are blanks. A determination process is performed on each of the items, weighting is applied, and then, the reception evaluation value is calculated. Accordingly, the reception evaluation value is an evaluation value of the reception quality of each broadcast wave having the same service ID as that of a tuned broadcast wave. In other words, the reception evaluation value is a degree of reliability for reception of a predetermined broadcast wave.
  • the database management unit 340 generates and updates the reception evaluation information 420 and generates and updates the reception evaluation value included in the reception evaluation information 420.
  • the DAB control unit 310 sends the reception evaluation value to the first reception unit 100, and the FM/AM control unit 320 sends the reception evaluation value to the second reception unit 200.
  • the first back scan reception unit 120 and the second back scan reception unit 260 receive the broadcast waves while switching between the broadcast waves of different services, and each service of the received broadcast wave is managed by the service ID.
  • This service ID is received as information included in the digital broadcast in the first back scan reception unit 120 and as information included in the RDS in the second back scan reception unit 260. Since broadcasts have the same content when the service IDs are the same, the broadcasts are the same broadcasts for a listener, but since broadcasting is performed by a plurality of channels, broadcast waves of different channels with the same service ID is switched by the tuning unit 130.
  • the reception evaluation value is used for this switching determination, and the reception evaluation unit 300 obtains the reception evaluation value for each broadcast wave.
  • the reception evaluation value is given in a range of 0 to 15, and this range may be the same between the digital broadcast received by the first reception unit 100 and the FM broadcast received by the second reception unit 200.
  • a great value thereof means that a degree of reception reliability is high. If the reception evaluation value is 15, the degree of reliability is the highest, and if the reception evaluation value is 0, the degree of reliability is the lowest. That is, for the reception evaluation values, the reception evaluation value for the analog broadcast and the reception evaluation value for the digital broadcast are obtained using different references, and any of the reception evaluation values is obtained within a range with a common upper limit value 15 and a common lower limit value 0 for each broadcast wave.
  • the reception evaluation unit 300 sets the reception evaluation value to be the same as the upper limit value 15 when the reception evaluation value is greater than the upper limit value 15 due to the increase and decrease value being added, and sets the reception evaluation value to be the same as the lower limit value 0 when the reception evaluation value is smaller than the lower limit value 0 due to the increase and decrease value being subtracted.
  • the reception evaluation unit 300 generates a new reception evaluation value based on the previous reception evaluation value at predetermined time intervals.
  • the reception evaluation unit 300 evaluates the reception quality according to a plurality of evaluation items shown in the reception quality information 400 and the reception quality information 410, obtains an increase and decrease value of the reception evaluation value for each of the evaluation items, and adds or subtracts the obtained increase and decrease value to or from the reception evaluation value to update the reception evaluation value and the reception evaluation information 420.
  • the tuning unit 130 Based on the above reception evaluation value, the tuning unit 130 performs a tuning process.
  • the tuning unit 130 compares the reception evaluation value for broadcast waves of the analog broadcast with the reception evaluation value for broadcast waves of the digital broadcast.
  • the tuning unit 130 tunes the broadcast waves of the analog broadcast in a case in which the reception evaluation value for the broadcast waves of the analog broadcast is greater, and tunes the broadcast waves of the digital broadcast in a case in which the reception evaluation value for the broadcast waves of the digital broadcast is greater.
  • the process of calculating the reception evaluation value will be described with reference to Figs. 3 to 6 .
  • Fig. 3 is a flowchart illustrating a flow of an entire process of calculating the reception evaluation value.
  • the database management unit 340 first performs an initial setting of the reception evaluation value (step S10). That is, the database management unit 340 sets the reception evaluation value to 7 which is an initial value. Then, the database management unit 340 updates the reception evaluation value (step S11). Accordingly, the database management unit 340 performs a service detection process, and determines whether digital radio signal detection is ON or OFF.
  • the database management unit 340 updates the reception evaluation value of a digital radio (that is, the DAB broadcast) (step S12), and in a case in which the digital radio detection is OFF, the database management unit 340 updates the reception evaluation value of the analog radio (that is, the FM broadcast) (step S13).
  • Fig. 4 is a flowchart illustrating a process of updating the reception evaluation value of the digital radio.
  • the database management unit 340 determines whether the service ID is the same service ID as that of a reproduction service or whether the service ID of the reproduced radio is the same as a predetermined service ID of the database 350. In a case in which the service IDs are not the same, the process proceeds to a process for other items.
  • step S21 it is determined whether S/N is a value equal to or greater than the threshold value. In a case in which S/N is determined not to be equal to or greater than the threshold value, the reception evaluation value decreases by 2 (step S22). It is determined that the reception evaluation value is greater than 7, the reception evaluation value decreases by 1 in a case in which the reception evaluation value is greater than 7, and the reception evaluation value is set to 0 in a case in which the reception evaluation value is equal to or smaller than 7.
  • the reception evaluation unit 300 further decreases the reception evaluation value. Accordingly, since the reception evaluation value becomes a value smaller than the certain value in a case in which the reception evaluation value is smaller than the certain value, a time is taken until the reception evaluation value is returned to the certain value even when the reception evaluation value then increases. As a result, since a time is taken until the reception evaluation value is greater than a reception evaluation value as a comparison target, it is possible to prevent the tuning switching from frequently occurring.
  • step S23 it is determined whether FICBER is a value equal to or smaller than a threshold value. In a case in which it is determined whether FICBER is a value equal to or smaller than the threshold value, 2 is added to the reception evaluation value (step S24). It is determined whether the reception evaluation value is greater than 15, and the reception evaluation value is set to 15 in a case in which the reception evaluation value is greater than 15.
  • step S25 In a case in which FICBER is determined not to be a value equal to or smaller than the threshold value, 1 is added to the reception evaluation values (step S25). It is determined whether the reception evaluation value is greater than 15, and in a case in which the reception evaluation value is greater than 15, the reception evaluation value is set to 15. Thus, the process of updating the reception evaluation value of the digital radio is performed based on the values of S/N and FICBER.
  • Fig. 5 is a flowchart illustrating a process of updating the reception evaluation value of the analog radio.
  • the database management unit 340 determines whether the service ID is the same service ID as that of a reproduction service or whether the service ID of the reproduced radio is the same as a predetermined service ID of the database 350. In a case in which the service IDs are not the same, the process proceeds to a process for other items.
  • step S31 it is determined whether RSSI is a value equal to or greater than a threshold value. In a case in which RSSI is determined not to be equal to or greater than the threshold value, the reception evaluation value decreases by 2 (step S32). It is determined that the reception evaluation value is greater than 7, the reception evaluation value decreases by 1 in a case in which the reception evaluation value is greater than 7, and the reception evaluation value is set to 0 in a case in which the reception evaluation value is equal to or smaller than 7.
  • the reception evaluation unit 300 further decreases the reception evaluation value. Accordingly, since the reception evaluation value becomes a value smaller than the certain value in a case in which the reception evaluation value is smaller than the certain value, a time is taken until the reception evaluation value is returned to the certain value even when the reception evaluation value then increases. As a result, since a time is taken until the reception evaluation value is greater than a reception evaluation value as a comparison target, it is possible to prevent the tuning switching from frequently occurring.
  • the RSSI is determined to be a value equal to or greater than the threshold value
  • it is determined whether the PI (service ID) is able to be acquired (step S33).
  • the PI is determined to be able to be acquired
  • 2 is added to the reception evaluation value (step S34). It is determined whether the reception evaluation value is greater than 15, and in a case in which the reception evaluation value is greater than 15, the reception evaluation value is set to 15.
  • step S35 1 is added to the reception evaluation values (step S35). It is determined whether the reception evaluation value is greater than 15, and in a case in which the reception evaluation value is greater than 15, the reception evaluation value is set to 15. Thus, the process of updating the reception evaluation value of the analog radio is performed based on an acquisition situation of the RSSI value and the PI.
  • the tuning unit 130 performs the tuning process based on the updated reception evaluation value. A flowchart of this tuning process will be described with reference to Fig. 6 .
  • Fig. 6 is a flowchart illustrating the tuning process.
  • the tuning unit 130 receives the updated reception evaluation value through the communication process with the reception evaluation unit 300.
  • the tuning unit 130 monitors a first service within the database 350 (step S40). Since the reception evaluation information 420 is arranged in an order of the reception evaluation value for each service ID and stored in the database 350, the service having the greatest reception evaluation value is first arranged.
  • the tuning unit 130 determines whether the reception evaluation value is equal to or greater than 7 for a service of which the reception evaluation value is the greatest (step S41). In a case in which the reception evaluation value is smaller than 7, the current service is continued, and the tuning process ends.
  • step S42 it is determined whether seamless link switching can be performed. That is, it is confirmed whether there is no difference in a timing between services, and then, the switching is performed. In a case in which the switching can be performed, seamless link switching is performed, and in a case in which the switching cannot be performed, service switching is performed by a manual operation.
  • reception evaluation unit 300 information on the quality of the DAB broadcast received from the antenna 101 and the FM broadcast received from the antenna 201 and the antenna 202 is sent to the reception evaluation unit 300.
  • the reception evaluation unit 300 generates and updates the reception evaluation information 420 and generates and updates the reception evaluation value.
  • the reception evaluation value is sent back to the first reception unit 100 and the second reception unit 200, and a high-quality broadcast with a high degree of reliability in digital and analog signals is selected from among the broadcasts with the same service ID based on the reception evaluation value.
  • the reception evaluation value is obtained for each of a plurality of broadcast waves of the analog broadcast and the digital broadcast and tuning is performed based on the reception evaluation value, the reception quality is evaluated for the analog broadcast as well as the digital broadcast. Since the tuning is performed based on the evaluation of both of the analog broadcast and the digital broadcast, it is possible to determine the broadcast waves that can be received with high quality and realize stable tuning switching.
  • the reception evaluation value is stabilized and it is possible to prevent switching of tuning from becoming unstable. Since the reception evaluation value is obtained using the evaluation items in a composite manner instead of using a single evaluation item, accuracy of calculation of the reception evaluation value is improved and broadcast waves that can be received with high quality can be determined.
  • a radio reception terminal that receives the DAB radio broadcast and the FM radio broadcast has been described as a target, but the present invention is not particularly limited thereto and can be applied to a reception apparatus that receives a digital broadcast not limited to the DAB radio broadcast and an analog broadcast not limited to the FM radio broadcast.

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  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Circuits Of Receivers In General (AREA)
EP16179179.3A 2015-07-21 2016-07-13 Empfangsvorrichtung Withdrawn EP3121977A1 (de)

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Publication number Priority date Publication date Assignee Title
WO2022033870A1 (fr) * 2020-08-11 2022-02-17 Continental Automotive Gmbh Suivi de station fm en audio non synchronisé

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Publication number Priority date Publication date Assignee Title
JP7472533B2 (ja) 2020-02-21 2024-04-23 株式会社Jvcケンウッド 放送受信装置、放送受信方法、放送受信制御プログラム

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