JP2004164785A - Information reproducing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent reproduction of information data distributed from an information providing system from being interrupted even if a transmission line is cut off. <P>SOLUTION: An information reproducing device which is mounted on a moving body and uses the information providing system distributing digital information data by an electric wave, includes; a data receiving part 10 for receiving the digital information data distributed; a data recording part 20 for recording the received the digital information data once and then sequentially outputting them, and also counting an amount of unoutputted recording data and outputting it; a data decoding part 30 for converting the digital information data outputted from the data recording part 20 into analog signals for reproduction; and a conversion rate setting part 40 for setting a conversion rate of the data decoding part 30 according to the amount of the unoutputted recording data of the recording part 20. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information reproducing apparatus mounted on a moving body such as a vehicle and converting received digital information into an analog signal and reproducing the analog signal. More specifically, the information transmission path to the moving body is temporarily disconnected. The present invention also relates to an information reproducing apparatus capable of reproducing received digital information without deteriorating continuity.
[0002]
[Prior art]
2. Description of the Related Art In recent years, systems for distributing information such as video, audio, and characters as digital information data have been put into practical use.
For example, news information and sports broadcasts are actively distributed using the Internet as a transmission channel.
When attempting to reproduce digital information data such as video, audio, and text distributed over the Internet transmission path in real time, the communication speed of the distributed digital information data, such as video and audio information, must be at least a certain speed. Speed (ie, average communication speed) is required.
On the other hand, in a mobile communication system called a next-generation mobile phone, an effective speed sufficient for distributing digital information data has been obtained.
[0003]
By using these transmission paths (that is, transmission paths of digital information data by digital broadcasting, the Internet, mobile communication systems, and the like), even if the information reproducing apparatus is in a moving body such as a vehicle, it can be used in real time. It is becoming possible to acquire and reproduce information such as video and audio.
Further, a system for broadcasting information such as video, audio, text, and the like as it is as digital information data is being put to practical use.
[0004]
Further, as a transmission path used for a mobile body such as a vehicle, a communication system called DSRC (Dedicated Toll Range Communication) can be used.
DSRC is a communication system used for a communication system currently used for a toll collection system of an expressway called an ETC (Electronic Toll Collection System), and has a 1 to 4 Mbps in a limited area (communication area) on a road. It is a system that can perform high-speed communication, and its use as connection means with the Internet has been studied in recent years.
[0005]
Note that there are two patent documents (Patent Document 1 and Patent Document 2) that are considered to be related to the present invention.
Patent Document 1 discloses, for example, "an information transmission method used for digital broadcasting or digital broadcasting transmission which can suppress interruption of a broadcasting service occurring on a receiving side of digital broadcasting when a sudden transmission path error occurs due to rainfall or the like. It is related to "apparatus", and "the transmitting side of digital broadcasting multiplexes the sub information that precedes the main information in time with the main information and transmits it, while the receiving side is in a state where the main information is usable. , The main information is acquired, and when the main information is in an unusable state due to a transmission path error, the sub information is acquired. "
[0006]
Also, Patent Document 2 relates to an apparatus and a method for providing a broadcast digital radio service that provides various interactive characteristics, and discloses an apparatus for broadcasting a digital program service to a decoder, wherein at least one data stream is provided. A packetizer for packetizing a plurality of program portions for transport within, and means for communicating said packetized program portions in at least one data stream at an overall rate greater than a pre-rate of a program service. The decoder comprises: recovering the packetized program portion; storing at least a portion of the program portion in a buffer; and deleting the program portion in the buffer when a buffer fullness level is reached. Equipment to adapt "I have been described.
[0007]
[Patent Document 1]
JP 2000-32404 A
[Patent Document 2]
JP-T-2002-510161
[0008]
[Problems to be solved by the invention]
A problem in a distribution system of digital information data (for example, video / audio information) used for a moving body such as a vehicle is that it is difficult to always secure a transmission path.
In a mobile communication system or a broadcast system, for example, a transmission path is temporarily cut off (cut) when it is in a tunnel or when a radio wave environment is deteriorated due to weather such as lightning.
In addition, DSRC and the like are systems in which communication is performed only in a limited area in the first place, so that a moving vehicle cannot continuously secure a transmission path.
In the conventional information reproducing apparatus, when the transmission path is disconnected, the reproduction of the digital information data (video / audio) distributed from the distribution system is interrupted each time, so that the continuity of the provided video / audio is There is a problem that the viewer is uncomfortable and the viewer is uncomfortable.
[0009]
The present invention has been made to solve such a problem, and when receiving an information providing service from the Internet, a digital broadcasting system, a mobile communication system, or a digital information providing system such as DSRC, It is an object of the present invention to provide an information reproducing apparatus capable of preventing reproduction information from being interrupted due to a temporary interruption of a transmission path and reducing a viewer's discomfort.
[0010]
[Means for Solving the Problems]
An information reproducing apparatus according to the present invention is an information reproducing apparatus that is mounted on a mobile body and uses an information providing system that distributes digital information data by radio waves,
A data receiving unit that receives digital information data distributed from the information providing system, and temporarily records the digital information data received by the data receiving unit, sequentially outputs the recorded digital information data, and performs a non-output recording. A data recording unit that counts and outputs the data amount, a data decoding unit that converts digital information data output from the data recording unit to an analog signal and reproduces the signal, and a recording data amount that is not output from the data recording unit. A conversion speed setting unit for setting the conversion speed of the data decoding unit accordingly.
[0011]
In addition, the information reproducing apparatus according to the present invention includes a moving speed detecting unit that detects a moving speed of the moving body, and the conversion speed setting unit is configured to detect a non-output recording data amount of the data recording unit and the moving speed detection. The conversion speed of the data decoding unit is set according to the moving speed detected by the unit.
[0012]
Further, the information reproducing apparatus according to the present invention includes a moving speed detecting unit that detects a moving speed of the moving body, a map database mounted on the moving body, and a current position of the moving body on the map database. Using the current position detecting means and the map database, the moving speed detected by the moving speed detecting unit when the transmission path of the digital information data distributed from the information providing system is disconnected, and the current position detecting means. A reconnection expected time calculation unit for estimating a reconnection time until a disconnected transmission path is reconnected based on the current position information detected by the conversion speed setting unit. The conversion speed of the data decoding unit is set according to the amount of unoutputted recording data and the expected reconnection time estimated by the expected reconnection time calculation unit.
[0013]
Further, the information reproducing apparatus according to the present invention is mounted on a mobile body, a plurality of roadside communication devices discretely arranged on the roadside, and a data server that supplies digital information data to the plurality of roadside communication devices, Having a plurality of roadside communication devices, in addition to the digital information data supplied from the data server to a moving object traveling in a communication area carried by each roadside communication device, a distance to a next communication area. An information reproducing apparatus using an information providing system that distributes information by radio waves,
A data receiving unit that receives digital information data distributed by radio waves from each roadside communication device of the information providing system and distance information to a next communication area,
A data recording unit that temporarily records the digital information data received by the data receiving unit, sequentially outputs the recorded digital information data, counts and outputs the unoutputted recording data amount, and outputs the data from the data recording unit. A data decoding unit that converts the digital information data to be converted into an analog signal and reproduces the data, a moving speed detecting unit that detects a moving speed of the moving object, and distance information to a next communication area received by the data receiving unit. An estimated reconnection time calculation unit that calculates an estimated reconnection time until the disconnected transmission path is reconnected based on the moving speed of the moving object detected by the moving speed detection unit; A conversion speed setting unit that sets a conversion speed of the data decoding unit according to the output recording data amount and the expected reconnection time output from the expected reconnection time calculation unit It is those with a.
[0014]
Further, the information reproducing apparatus according to the present invention is mounted on a mobile body, a plurality of roadside communication devices discretely arranged on the roadside, and a data server that supplies digital information data to the plurality of roadside communication devices, Having a plurality of roadside communication devices, in addition to digital information data supplied from the data server to a mobile body traveling in a communication area carried by each roadside communication device, An information reproducing apparatus that uses an information providing system that distributes information on an estimated required time required to arrive at a radio wave,
A data receiving unit that receives digital information data distributed by radio waves from each roadside communication device of the information providing system and information of an estimated time required to reach a next communication area; and digital information data that the data receiving unit receives. Once, and sequentially outputs the recorded digital information data, counts and outputs the amount of unoutputted recording data, and converts the digital information data output from the data recording unit into an analog signal. A data decoding unit for reproducing the data, and a conversion speed for setting a conversion speed of the data decoding unit in accordance with the amount of unrecorded recording data of the data recording unit and the expected required time information received by the data receiving unit. And a setting unit.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
In general, when video information is reproduced, the viewer's sensitivity to the reproduction speed is such that even if the reproduction is performed at a reproduction speed that is about 10% lower than the normal reproduction speed, there is not much unnaturalness (unnaturalness). I can't feel it.
Further, with regard to audio information attached to video information, if the spectrum moving to a low frequency is corrected so as to approach the original spectrum by lowering the reproduction speed, in most cases, the sense of discomfort disappears.
The present invention utilizes such characteristics of the viewer.
[0016]
The information reproducing apparatus according to the present invention, when temporarily unable to receive the digital information data distributed by the information providing system due to the temporary disconnection of the transmission path, has already received via the transmission path, the data recording unit If the amount of stored data is sufficient to interpolate the transmission line disconnection period, the data stored in the data recording unit is converted into an analog signal at the original (normal) speed and reproduced. In this case, the data stored in the data recording unit is reproduced at a lower speed than the original speed.
In this way, even if the transmission path is disconnected, the data stored in the data recording unit of the information reproducing apparatus can be continuously reproduced for a certain period of time, so that the reproduced information is not interrupted. Can be suppressed.
At this time, the reproduction speed is set so that the viewer does not feel unnatural.
The present invention has been made based on such a basic concept.
[0017]
An embodiment of the present invention will be described below with reference to the drawings.
In the drawings, the same reference numerals represent the same or corresponding elements.
Embodiment 1 FIG.
The information reproducing apparatus according to the present embodiment is mounted on a moving object such as a car or a train, and an information providing system (for example, a digital broadcasting system or an Internet system) in which digital information data such as video, audio, and text is distributed by radio waves. The present invention relates to an information reproducing apparatus that utilizes the information.
FIG. 1 is a block diagram showing a configuration of the information reproducing apparatus according to the first embodiment.
In the figure, 10 is a data receiving unit, 20 is a data recording unit, 30 is a data decoding unit, and 40 is a conversion speed setting unit.
[0018]
The operation of the information reproducing apparatus according to the present embodiment will be described.
The data receiving unit 10 receives digital information data such as video, audio, and text distributed by radio waves from an information providing system (not shown) such as a digital broadcasting system or the Internet system, and records the received digital information data. Output to the unit 20.
The data recording unit 20 temporarily records the digital information data output from the data receiving unit 10 and sequentially outputs the digital information data to the data decoding unit 30, and also stores the amount of unoutputted recording data (that is, the amount of unrecorded data that is , The amount of data remaining in the data recording unit 20), and outputs the counted unrecorded recording data amount.
[0019]
The data recording unit 20 has a buffer function, and sequentially outputs the recorded digital information data in response to a read request from the data decoding unit 30.
The data decoding unit 30 converts digital information data output from the data recording unit 20 into an analog signal based on the conversion speed set by the conversion speed setting unit 40.
That is, the data decoding unit 30 reproduces the digital information data received by the data receiving unit 10 as an analog signal.
At this time, the data decoding unit 30 converts the spectrum of the audio frequency moved to a lower frequency band by reducing the conversion speed into the original spectrum (that is, the normal spectrum before the conversion) for the audio information attached to the video information. Correct to get closer.
With this correction, even if the viewer hears the sound reproduced by the data decoding unit 30, the viewer does not feel unnatural.
[0020]
The conversion speed setting unit 40 sets the conversion speed of the data decoding unit 30 according to the amount of unrecorded recording data output from the data recording unit 20.
For example, the conversion speed setting unit 40 calculates the ratio r of the conversion speed to the original conversion speed (that is, the normal conversion speed when there is no disconnection of the transmission line) by the following conditional expression, and calculates the ratio r of the calculated r. The data conversion speed of the data decoding unit 30 is set based on the value.
Conditional expression
r = 1 [Q ≧ T_max] Equation (1)
r = Q / T_max  [T_max> Q> (T_max× r_min)] Equation (2)
r = r_min      [Q ≦ (T_max× r_min)] ... Equation (3)
[0021]
In the above formula,
Q is the amount of unrecorded recording data output from the data recording unit 20 to the conversion speed setting unit 40 (that is, the amount of data remaining in the data recording unit 20 without being output to the data decoding unit 30), The data amount is a numerical value represented by a conversion time when the data decoding unit 30 converts the data amount at an original conversion speed (that is, a normal conversion speed when there is no disconnection of a transmission line).
r is a numerical value representing the ratio of the conversion speed to the original conversion speed of the data decoding unit 30 (that is, the normal conversion speed when the transmission path is not disconnected).
Tmax is a value experimentally obtained, and is a time for reconnection in most cases when the transmission path is disconnected.
r_minIs an experimentally determined value, and is the original conversion speed at which most people can view the reproduced information (that is, the information converted by the data tecoding unit 30) without feeling unnaturalness. This is the lower limit of the numerical value representing the ratio of the conversion speed to (ie, the normal conversion speed when there is no disconnection of the transmission line).
[0022]
As shown in the above conditional expression, the conversion speed setting unit 40 of the information reproducing apparatus according to the present embodiment sets the conversion speed in the data data decoding unit 30 in accordance with the amount of unoutput recorded data counted by the data recording unit 20. Set.
Here, the expression (1) indicates that the amount of unoutputted recording data in the data recording unit 20 is large, and the data amount Q (a numerical value represented by the conversion time when the data decoding unit 30 converts at the original conversion speed) is used. If the transmission speed is equal to or longer than Tmax (the time for reconnection in most cases when the transmission line is disconnected), the conversion speed in the data decoding unit 30 is reduced to the original conversion speed (the normal conversion speed when the transmission line is not disconnected). Conversion speed).
[0023]
That is, even if the transmission path is disconnected and the digital information data recorded in the data recording unit 20 is temporarily interrupted, “Q ≧ T_max  In most cases, the output from the data decoding unit 30 will not be interrupted as long as the data amount represented by the relationship "" remains.
This is because the transmission path is reconnected before the digital information data to be converted by the data decoding unit 30 in the data recording unit 20 runs out, and new digital information data is input to the data recording unit 20.
[0024]
Equation (2) indicates that the unoutputted recording data amount (Q) in the data recording unit 20 is “T_max> Q> (T_max× r_min )), The conversion speed set by the conversion speed setting unit 40 is set to “r = Q / T_max", The conversion speed of the data decoding unit 30 is set so as to satisfy the condition".
In this way, if the conversion rate of the amount of unrecorded recording data (that is, the amount of data remaining in the data recording unit) is set, the output from the data decoding unit 30 is hardly interrupted and reproduced ( That is, most of the information (converted by the data tecoding unit 30) can be viewed without feeling unnaturalness.
[0025]
Equation (3) indicates that the amount of unoutputted recording data in the data recording unit 20 is small, and that “Q ≦ T_max× r_min  ", The conversion speed set by the conversion speed setting unit 40 is set to" r = r_min  Are set so as to satisfy the condition ".
In other words, the conversion speed is set to the lower limit conversion speed at which most of the reproduced information can be viewed without feeling unnaturalness.
By setting the conversion speed in this manner, most of the information reproduced by the data decoding unit 30 (ie, converted by the data decoding unit 30) can be viewed without feeling unnaturalness. .
[0026]
FIG. 2 conceptually shows how the data amount Q (that is, the unoutputted recording data amount) of digital information data recorded in the data recording unit 20 changes in the information reproducing apparatus according to the present embodiment. It is something.
As can be seen from FIG. 2, the data amount Q changes from the initial state (data amount Q = 0) to T._max× r_minConstant speed (1-r_min) Increases the data.
Q is T_max× r_minAfter that, the speed at which Q increases as Q increases becomes slower, and Q = T_maxThen Q no longer increases.
If the transmission line is disconnected in this state, the conversion of the data decoding unit 30 is continued using the data stored (recorded) in the data recording unit 20, the disconnection of the transmission line is released, and communication is resumed. Then Q = T_maxThe data is accumulated in the data recording unit 20 at a predetermined speed until the time becomes.
[0027]
As described above, the conversion speed setting unit changes the conversion speed of the data decoding unit 30 from the original conversion speed in accordance with the amount of data recorded in the data recording unit, and the output from the data decoding unit stops. So that the viewer does not feel unnatural because the conversion speed is too low.
[0028]
Embodiment 2 FIG.
FIG. 3 is a block diagram showing a configuration of the information reproducing apparatus according to the second embodiment.
In the figure, 10 is a data receiving unit, 20 is a data recording unit, 30 is a data decoding unit, 40 is a conversion speed setting unit, and 50 is a moving speed detecting unit that detects the moving speed of a moving object equipped with an information reproducing device. .
The data receiving unit 10, the data recording unit 20, and the data decoding unit 30 are equivalent to those of the information reproducing apparatus according to the first embodiment, and perform the same operations.
[0029]
The information reproducing apparatus according to the present embodiment is different from the information reproducing apparatus according to Embodiment 1 described above in further including a moving speed detecting unit 50 for detecting a moving speed of a moving body equipped with the information reproducing apparatus.
Then, the conversion speed setting unit 41 calculates the unoutputted recording data amount output from the data recording unit 20 (that is, the data amount recorded in the data recording unit 20) and the moving object speed detected by the moving speed detection unit 50. The conversion speed of the data decoding unit 30 is set in accordance with the above.
In addition, as the moving body speed detecting means in the moving speed detecting unit 50, for example, if the moving body is a general automobile, any means can be used as long as it can be detected using a speed pulse output from a speed meter or the like. .
[0030]
The data decoding unit 30 converts the digital information data output from the data recording unit 20 into an analog signal based on the conversion speed set by the conversion speed setting unit 41.
That is, the digital information data received by the data receiving unit 10 is reproduced by an analog signal.
At this time, the data decoding unit 30 corrects the audio information accompanying the video information so that the spectrum of the audio frequency moved to a low frequency by reducing the conversion speed approaches the original spectrum.
As in the case of the first embodiment, even if the viewer hears the audio reproduced by the data decoding unit 30, the correction does not cause unnaturalness.
[0031]
The conversion speed setting unit 41 sets the conversion speed of the data decoding unit 30 according to the amount of unrecorded recording data output from the data recording unit 20 and the moving speed of the moving object detected by the moving speed detection unit 50.
For example, the conversion speed setting unit 41 calculates the ratio r of the conversion speed to the original conversion speed (that is, the normal conversion speed when there is no disconnection of the transmission line) by the following conditional expression, and calculates the ratio r of the calculated r. The data conversion speed in the data decoding unit 40 is set based on the value.
Conditional expression
r = 1 [Q ≧ (L / v)] Equation (4)
r = Q / (L / v) [(L / v)> Q> ((L / v) × r_min)] ... Equation (5)
r = r_min      [Q ≦ ((L / v) × r_min)]... Equation (6)
[0032]
In the above formula,
Q is an unoutputted recording data amount output from the data recording unit 20 to the conversion speed setting unit 40, and the data amount is converted by the data decoding unit 30 to the original conversion speed (that is, there is no disconnection of the transmission path). (The normal conversion speed in the case).
r is a numerical value representing the ratio of the conversion speed to the original conversion speed of the data decoding unit 30 (that is, the normal conversion speed when the transmission path is not disconnected).
L is a value obtained experimentally, and is a moving distance of the moving object until reconnection in most cases when the transmission path is disconnected.
r_minIs an experimentally determined value, and is the original conversion speed at which most people can view the reproduced information (that is, the information converted by the data tecoding unit 30) without feeling unnaturalness. This is the lower limit of the numerical value representing the ratio of the conversion speed to (ie, the normal conversion speed when there is no disconnection of the transmission line).
Note that the present embodiment is different from T_maxIs dynamically obtained from the distance parameter L and the moving speed v of the moving body.
[0033]
As shown in the above conditional expression, the conversion speed setting unit 41 of the information reproducing apparatus according to the present embodiment determines whether or not the unrecorded recording data amount counted by the data recording unit 20 and the moving speed detection unit 50 detect the moving object. The conversion speed of the data decoding unit 30 is set according to the moving speed of.
Here, the equation (4) indicates that the amount of unoutputted recording data in the data recording unit 20 is large, and the data amount Q (a numerical value represented by a conversion time when the data decoding unit 30 performs conversion at the original conversion speed) is (L / v) (the time required for the moving object to move until reconnection when the transmission line is cut in most cases) or more, the conversion speed in the data decoding unit 30 is reduced to the original speed. This indicates that the conversion speed is set to the normal conversion speed when the transmission path is not disconnected.
[0034]
That is, even if the transmission path is cut and the digital information data recorded in the data recording unit 20 is temporarily interrupted, the data amount represented by the relationship of “Q ≧ (L / v)” remains in the data recording unit 20. If it remains, the output from the data decoding unit 30 will not be interrupted in most cases even if the data decoding unit 30 converts at the original conversion speed.
[0035]
Equation (5) indicates that the unoutputted recording data amount (Q) in the data recording unit 20 is expressed as “(L / v)> Q> ((L / v) × r_min) Indicates that the conversion speed set by the conversion speed setting unit 40 is set so as to satisfy the condition of “r = Q / (L / v)”.
When the conversion speed is set in this manner, the output from the data decoding unit 30 is hardly interrupted, and most of the reproduced information (that is, the information converted by the data decoding unit 30) is unreadable. You can watch without feeling the naturalness.
[0036]
Expression (6) indicates that the amount of unoutputted recording data in the data recording unit 20 is small, and that “Q ≦ (L / v) × r_min  The relation "" indicates that the conversion speed set by the conversion speed setting unit 40 is set so as to satisfy the condition of "r = Q / (L / v)".
By setting the conversion speed in this manner, most of the information reproduced by the data decoding unit 30 (ie, converted by the data decoding unit 30) can be viewed without feeling unnaturalness. .
[0037]
FIG. 4 conceptually shows how the data amount Q (that is, the unoutputted recording data amount) of the digital information data recorded in the data recording unit 20 changes in the information reproducing apparatus according to the present embodiment. It is a thing.
As can be seen from the figure, Q is (L / v) × r from the initial state (data amount Q = 0)._minConstant speed (1-r_min) Increases the data.
Q is (L / v) × r_minAfter Q, the speed at which Q increases as Q increases becomes slower. When Q = L / v, Q does not increase.
If the transmission line is disconnected in this state, the conversion of the data decoding unit 30 is continued using the data stored (recorded) in the data recording unit 20, the disconnection of the transmission line is released, and communication is resumed. Then, data is accumulated in the data recording unit 20 at a predetermined speed until Q = L / v.
[0038]
As described above, the conversion speed setting unit of the information reproducing apparatus according to the present embodiment performs data conversion in accordance with the amount of data recorded in the data recording unit and the moving speed of the moving object detected by the moving speed detecting unit. The conversion speed of the decoding unit can be changed from the original conversion speed. Even if the transmission path is temporarily interrupted and digital information data cannot be received, the reproduction signal output from the data decoding unit is not interrupted. The conversion speed can be obtained more accurately, and the conversion speed does not become too low so that the viewer does not feel unnatural.
[0039]
Embodiment 3 FIG.
FIG. 5 is a block diagram showing a configuration of the information reproducing apparatus according to the third embodiment.
In the figure, 10 is a data receiving unit, 20 is a data recording unit, 30 is a data decoding unit, 42 is a conversion speed setting unit, and 50 is a moving speed detecting unit that detects the moving speed of a moving object equipped with an information reproducing device. .
Reference numeral 60 denotes a reconnection expected time calculation unit; 70, a map database used in a navigation system or the like; and 75, a current position detection unit of the moving object.
[0040]
The information reproducing apparatus according to the present embodiment is the same as the information reproducing apparatus according to the first embodiment, except that a moving speed detecting unit 50 that detects a moving speed of the moving body, a map database 70 mounted on the moving body, When the transmission path of digital information data distributed from an information providing system (not shown) is disconnected using the current position detecting means 75 for detecting the current position of the moving body on the map database 70 and the map database 70, A reconnection expected time calculation unit 60 for estimating a reconnection time until the disconnected transmission path is reconnected based on the moving speed detected by the speed detection unit 50 and the current position information detected by the current position detection unit; The conversion speed setting unit 42 determines the amount of unrecorded data output from the data recording unit 20 and the reconnection schedule estimated by the estimated reconnection time calculation unit 60. Depending on the time, and sets the conversion speed of the data decoding section 30.
[0041]
The data decoding unit 30 converts the digital information data output from the data recording unit 20 into an analog signal based on the conversion speed set by the conversion speed setting unit 42.
That is, the digital information data received by the data receiving unit 10 is reproduced by an analog signal.
At this time, the data decoding unit 30 corrects the audio information accompanying the video information so that the spectrum of the audio frequency moved to a low frequency by reducing the conversion speed approaches the original spectrum.
As in the case of the first embodiment, even if the viewer hears the audio reproduced by the data decoding unit 30, the correction does not cause unnaturalness.
[0042]
When the transmission path is disconnected and digital information data cannot be received from an information providing system (not shown), the estimated reconnection time calculation unit 60 uses the map database 70 and a current position detection unit that detects the current position of the moving object. Then, the distance to the point where the next best transmission path is predicted to be obtained (that is, the disconnected state of the transmission path is resolved and digital information data can be satisfactorily received from the information providing system) is calculated.
For example, if the current location is a point where radio waves are shielded, such as in a tunnel, the distance to the exit of the tunnel is calculated.
Then, using the moving speed of the moving object input from the moving speed detecting unit 50, the time required until the next good transmission path is obtained (expected reconnection time: T_rcv) Is calculated and output to the conversion speed setting unit 42.
[0043]
The conversion speed setting unit 42 calculates the amount of unrecorded data output from the data recording unit 20 and the estimated reconnection time T calculated by the estimated reconnection time calculation unit 60._rcvThe conversion speed of the data decoding unit 30 is set according to the above.
For example, the conversion speed setting unit 42 calculates the ratio r of the conversion speed to the original conversion speed (that is, the normal conversion speed when there is no disconnection of the transmission line) by the following conditional expression, and calculates the ratio r of the calculated r. The data conversion speed in the data decoding unit 30 is set based on the value.
Conditional expression
r = 1 [Q ≧ T_rcv] ... Equation (7)
r = Q / T_rcv  [T_rcv> Q> (T_rcv× r_min)] ... Equation (8)
r = r_min      [Q ≦ (T_rcv× r_min)]... Equation (9)
[0044]
In the above formula,
Q is an unoutputted recording data amount output from the data recording unit 20 to the conversion speed setting unit 40, and is expressed by a conversion time when the data decoding unit 30 converts the data amount at the original conversion speed. It is a numerical value.
r is a numerical value representing the ratio of the conversion speed to the original conversion speed of the data decoding unit 30 (that is, the normal conversion speed when the transmission path is not disconnected).
T_rcvIs the estimated reconnection time calculated by the estimated reconnection time calculation unit 60.
r_minIs an experimentally determined value, and is the original conversion speed at which most people can view the reproduced information (that is, the information converted by the data tecoding unit 30) without feeling unnaturalness. This is the lower limit of the numerical value representing the ratio of the conversion speed to.
Note that the present embodiment is different from T_maxIs dynamically obtained from the map database and the current position information.
[0045]
As shown in the above conditional expression, the conversion speed setting unit 42 of the information reproducing apparatus according to the present embodiment calculates the unoutputted recording data amount counted by the data recording unit 20 and the estimated reconnection time calculation unit 60. The conversion speed of the data decoder 30 is set according to the expected reconnection time.
Here, the expression (7) indicates that the amount of unrecorded recording data in the data recording unit 20 is large, and the data amount Q (a numerical value represented by a conversion time when the data decoding unit 30 performs conversion at the original conversion speed) is T_rcvIf it is longer than (expected reconnection time), it indicates that the conversion speed in the data decoding unit 30 is set to the original conversion speed (the normal conversion speed when there is no disconnection of the transmission path).
[0046]
That is, even if the transmission path is cut and the digital information data recorded in the data recording unit 20 is temporarily interrupted, “Q ≧ T_rcv  As long as the data amount represented by the relationship "" remains, the output from the data decoding unit 30 will not be interrupted in most cases even if the data decoding unit 30 performs conversion at the original conversion speed.
[0047]
Equation (8) indicates that the unoutputted recording data amount (Q) in the data recording unit 20 is “T_rcv> Q> (T_rcv× r_min) ", The conversion speed set by the conversion speed setting unit 42 is set to" r = Q / T_rcv  Are set so as to satisfy the condition ".
By setting the conversion speed in this manner, the output from the data decoding unit 30 is hardly interrupted, and most of the information reproduced (that is, converted by the data decoding unit 30) is unreadable. You can watch without feeling the naturalness.
[0048]
Equation (9) indicates that the amount of unoutputted recording data in the data recording unit 20 is small, and that “Q ≦ (T_rcv× r_min  The relation "" indicates that the conversion speed set by the conversion speed setting unit 40 is set so as to satisfy the condition of "r = Q / (L / v)".
By setting the conversion speed in this way, most of the information reproduced by the data decoding unit 30 (that is, converted by the data decoding unit 30) can be viewed without feeling unnaturalness.
[0049]
FIG. 6 conceptually shows how the data amount Q of digital information data recorded in the data recording unit 20 (that is, the unoutputted recording data amount) changes in the information reproducing apparatus according to the present embodiment. It is a thing.
As can be seen from the figure, Q is T from the initial state (data amount Q = 0)._rcv× r_minConstant speed (1-r_min) Increases the data.
Q is T_rcv× r_minAfter that, the speed at which Q increases as Q increases becomes slower, and Q = T_rcvThen Q no longer increases.
If the transmission line is disconnected in this state, the conversion of the data decoding unit 30 is continued using the data stored (recorded) in the data recording unit 20, the disconnection of the transmission line is released, and communication is resumed. Then Q = T_rcvThe data is accumulated in the data recording unit 20 at a predetermined speed until the time becomes.
[0050]
As described above, the conversion speed setting unit of the information reproducing apparatus according to the present embodiment sets the data rate according to the amount of data recorded in the data recording unit and the estimated reconnection time calculated by the estimated reconnection time calculation unit. By changing the conversion speed of the decoding unit from the original conversion speed, the conversion speed for not interrupting the reproduction signal output from the data decoding unit can be determined extremely accurately according to the road running condition of the moving object,
In addition, the viewer does not feel unnatural because the conversion speed is too low.
[0051]
Embodiment 4 FIG.
FIG. 7 is a block diagram showing a configuration of the information reproducing apparatus according to the fourth embodiment.
FIG. 8 is a diagram showing a configuration example of a communication system (information providing system) called DSRC (Dedicated Toll Range Communication) used by the information reproducing apparatus according to the present embodiment.
First, the communication system (information providing system) shown in FIG. 8 will be described.
8, reference numerals 80, 81, 82,... Denote roadside communication devices that are discretely arranged on the roadside, and 90 denotes a data server that provides digital information data such as video and audio to each of these roadside communication devices. It is.
In an information providing system (for example, a video / audio information distribution system) using DSRC as shown in FIG. On the other hand, digital information data is distributed by radio waves.
[0052]
Normally, the communication areas are set apart from each other, so that the transmission path is intermittently secured.
In other words, the digital information data distributed from the information providing system may be temporarily disconnected, and the vehicle 100 may not be able to receive the digital information data.
In the information providing system shown in FIG. 8, each roadside communication device transmits distance information to the next communication area to the information reproducing device mounted on the traveling body in addition to digital information data such as video / audio data. are doing.
[0053]
Next, the configuration and operation of the information reproducing apparatus according to the present embodiment will be described with reference to FIG.
In FIG. 7, reference numeral 10 denotes a data receiving unit that receives and outputs digital information data distributed by radio waves and distance information to the next communication area from each roadside communication device of an information providing system (not shown) using DSRC. , 20 is a data recording unit for temporarily recording digital information data output from the data receiving unit 10, and 30 is a unit for making a data read request to the data recording unit and transmitting digital information data output from the data recording unit 20. A data decoding unit for converting the data into an analog signal and reproducing the data; 42, a conversion speed setting unit for setting the conversion speed of the data decoding unit 30; 50, a moving speed detecting unit for detecting the moving speed of a moving body equipped with the information reproducing device is there.
[0054]
When converting the digital information data output from the data recording unit 20 to an analog signal and reproducing the analog information, the data decoding unit 30 moves the audio information accompanying the video information to a lower frequency band by lowering the conversion speed. The corrected spectrum of the audio frequency is corrected so as to approach the original spectrum.
As in the case of the first embodiment, even if the viewer hears the audio reproduced by the data decoding unit 30, the correction does not cause unnaturalness.
[0055]
Reference numeral 61 denotes a reconnection expected time calculation unit, which receives the distance information to the next communication area output from the reception unit 10 and the moving speed of the moving object detected by the moving speed detection unit 50, and inputs the information. Using the distance information to the next communication area and the moving speed of the mobile unit, calculate the time required until the next transmission line is opened (that is, the estimated reconnection time), and convert the calculated estimated reconnection time. Output to the speed setting unit 42.
The conversion speed setting unit 42 sets the conversion speed of the data decoding unit 30 according to the amount of unrecorded recording data output from the data recording unit 20 and the estimated reconnection time calculated by the estimated reconnection time calculation unit 61.
[0056]
For example, the conversion speed setting unit 42 calculates the ratio r of the conversion speed to the original conversion speed (that is, the normal conversion speed when there is no disconnection of the transmission line) by the following function, and calculates the value of the calculated r. The data conversion speed in the data decoding unit 30 is set based on.
Conditional expression
r = 1 [Q ≧ T_rcv] Equation (10)
r = Q / T_rcv[T_rcv> Q> (T_rcv/ R_min)] ... Equation (11)
r = r_min    [Q ≦ (T_rcv/ R_min)] ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ Equation (12)
[0057]
In the above formula,
Q is an unoutputted recording data amount output from the data recording unit 20 to the conversion speed setting unit 40, and is expressed by a conversion time when the data decoding unit 30 converts the data amount at the original conversion speed. It is a numerical value.
r is a numerical value representing the ratio of the conversion speed to the original conversion speed of the data decoding unit 30 (that is, the normal conversion speed when the transmission path is not disconnected).
T_rcvIs the “expected reconnection time” calculated by the expected reconnection time calculation unit 61.
r_minIs an experimentally determined value, and is the original conversion speed at which most people can view the reproduced information (that is, the information converted by the data tecoding unit 30) without feeling unnaturalness. This is the lower limit of the numerical value representing the ratio of the conversion speed to.
Note that the present embodiment is different from T_maxIs obtained from the distance information to the next communication area distributed from the roadside communication device and the moving speed of the moving object.
[0058]
As shown in the above conditional expression, the conversion speed setting unit 42 of the information reproducing apparatus according to the present embodiment calculates the unoutputted recording data amount counted by the data recording unit 20 and the estimated reconnection time calculation unit 61. The conversion speed of the data decoder 30 is set according to the expected reconnection time.
Here, the expression (10) indicates that the amount of unoutputted recording data in the data recording unit 20 is large, and the data amount Q (a numerical value represented by a conversion time when the data decoding unit 30 performs conversion at the original conversion speed) is T_rcvIf it is longer than (expected reconnection time), it indicates that the conversion speed in the data decoding unit 30 is set to the original conversion speed (the normal conversion speed when there is no disconnection of the transmission path).
[0059]
That is, even if the transmission path is cut and the digital information data recorded in the data recording unit 20 is temporarily interrupted, “Q ≧ T_rcv  As long as the data amount represented by the relationship "" remains, the output from the data decoding unit 30 will not be interrupted in most cases even if the data decoding unit 30 performs conversion at the original conversion speed.
[0060]
Equation (11) indicates that the amount of unrecorded recording data (Q) in the data recording unit 20 is “T_rcv> Q> (T_rcv× r_min) ", The conversion speed set by the conversion speed setting unit 42 is set to" r = Q / T_rcv  Are set so as to satisfy the condition ".
By setting the conversion speed in this manner, the output from the data decoding unit 30 is hardly interrupted, and most of the information reproduced (that is, converted by the data decoding unit 30) is unreadable. You can watch without feeling the naturalness.
[0061]
Equation (12) indicates that the amount of unoutputted recording data in the data recording unit 20 is small, and that “Q ≦ (T_rcv× r_min  )), The conversion speed set by the conversion speed setting unit 42 is set to “r = r_min  Are set so as to satisfy the condition ".
By setting the conversion speed in this way, most of the information reproduced by the data decoding unit 30 (that is, converted by the data decoding unit 30) can be viewed without feeling unnaturalness.
In the information reproducing apparatus according to the present embodiment, the manner in which the data amount Q (that is, the unoutputted recording data amount) of the digital information data recorded in the data recording unit 20 is conceptually shown in FIG. Will be the same as
[0062]
As described above, the information reproducing apparatus according to the present embodiment uses the information providing system that distributes digital information data and distance information to the next communication area by radio waves.
Then, the conversion speed setting unit calculates the amount of data recorded in the data recording unit and the estimated reconnection time calculated by the estimated reconnection time calculation unit (that is, the distance information to the next communication area distributed from the information providing system). And the estimated reconnection time calculated by the estimated reconnection time calculation unit based on the moving speed of the moving object), it is possible to easily obtain the conversion speed for preventing the reproduction signal output from the data decoding unit from being interrupted. .
In addition, the viewer does not feel unnatural because the conversion speed is too low.
[0063]
Embodiment 5 FIG.
FIG. 9 is a block diagram showing a configuration of the information reproducing apparatus according to the fifth embodiment.
The information providing system used by the information reproducing apparatus according to the present embodiment is basically the same as the above-described communication system (information providing system) called DSRC (Dedicated Toll Range Communication) shown in FIG. Each roadside communication device reproduces, in addition to digital information data such as video and audio data, information on an estimated required time required for the moving body traveling in the communication area to reach the next communication area, on-board information reproduction. The difference is that the data is sent to the device.
Each roadside communication device transmits the next roadside communication from the communication area of each roadside communication device immediately before the mobile (vehicle) equipped with the information reproducing device according to the present embodiment enters the communication area of each roadside communication device. It has a function to count the time required to travel to the communication area of the device, and in addition to digital information data such as video and audio, information on the estimated time required for the mobile body to reach the next communication area Send to playback device.
[0064]
Next, the configuration and operation of the information reproducing apparatus according to the present embodiment will be described with reference to FIG.
In FIG. 9, reference numeral 10 denotes digital information data distributed by radio waves from each roadside communication device of an information providing system (not shown) using DSRC, and a moving object traveling in the communication area reaches the next communication area. A data receiving unit for receiving and outputting information on the estimated required time up to and including 20; a data recording unit for temporarily recording digital information data output from the data receiving unit 10; and 30 a data reading request to the data recording unit. A data decoding unit for converting digital information data output from the data recording unit 20 into an analog signal and reproducing the analog signal, a conversion speed setting unit 43 for setting a conversion speed of the data decoding unit 30, and an information reproducing device 50. The moving speed detecting unit detects the moving speed of the mounted moving body.
[0065]
When converting the digital information data output from the data recording unit 20 to an analog signal and reproducing the analog information, the data decoding unit 30 moves the audio information accompanying the video information to a lower frequency band by lowering the conversion speed. The corrected spectrum of the audio frequency is corrected so as to approach the original spectrum.
As in the case of the first embodiment, even if the viewer hears the audio reproduced by the data decoding unit 30, the correction does not cause unnaturalness.
[0066]
The conversion speed setting unit 43 determines whether the amount of unrecorded recording data output from the data recording unit 20 and the estimated required time output from the data receiving unit 10 (that is, if the moving object traveling in the communication area is in the next communication area). The conversion speed of the data decoding unit 30 is set in accordance with the estimated required time until the data decoding unit 30 arrives.
[0067]
For example, the conversion speed setting unit 43 calculates the ratio r of the conversion speed to the original conversion speed (that is, the normal conversion speed when there is no transmission line disconnection) by the following function, and calculates the value of the calculated r. The data conversion speed in the data decoding unit 30 is set based on.
Conditional expression
r = 1 [Q ≧ T_rcv] Equation (13)
r = Q / T_rcv[T_rcv> Q> (T_rcv/ R_min)] ... Equation (14)
r = r_min    [Q ≦ (T_rcv/ R_min)] ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ Equation (15)
[0068]
In the above formula,
Q is the amount of unrecorded recording data output from the data recording unit 20 to the conversion speed setting unit 43, and is expressed as a conversion time when the data decoding unit 30 converts the data amount at the original conversion speed. It is a numerical value.
r is a numerical value representing the ratio of the conversion speed to the original conversion speed of the data decoding unit 30 (that is, the normal conversion speed when the transmission path is not disconnected).
T_rcvIs the "estimated required time until the moving object traveling in the communication area reaches the next communication area" provided by the roadside communication device of the information providing system.
r_minIs an experimentally determined value, and is the original conversion speed at which most people can view the reproduced information (that is, the information converted by the data tecoding unit 30) without feeling unnaturalness. This is the lower limit of the numerical value representing the ratio of the conversion speed to.
Note that the present embodiment is different from T_maxIs the estimated time required to reach the next communication area distributed from the roadside communication device.
[0069]
As shown in the above conditional expression, the conversion speed setting unit 43 of the information reproducing apparatus according to the present embodiment calculates the amount of unrecorded recording data output from the data recording unit 20 and the next The conversion speed of the data decoder 30 is set according to the estimated required time to reach the communication area.
Here, the equation (13) indicates that the amount of unrecorded recording data in the data recording unit 20 is large, and the data amount Q (a numerical value represented by the conversion time when the data decoding unit 30 converts at the original conversion speed) is used. T_rcvIf it is longer than (expected required time until the moving body traveling in the communication area reaches the next communication area), the conversion speed in the data decoding unit 30 is changed to the original conversion speed (when the transmission path is not disconnected). At the normal conversion speed).
[0070]
That is, even if the transmission path is cut and the digital information data recorded in the data recording unit 20 is temporarily interrupted, “Q ≧ T_rcv  As long as the data amount represented by the relationship "" remains, the output from the data decoding unit 30 will not be interrupted in most cases even if the data decoding unit 30 performs conversion at the original conversion speed.
[0071]
Equation (14) indicates that the unoutputted recording data amount (Q) in the data recording unit 20 is “T_rcv> Q> (T_rcv× r_min)), The conversion speed set by the conversion speed setting unit 43 is set to “r = Q / T_rcv  Are set so as to satisfy the condition ".
By setting the conversion speed in this manner, the output from the data decoding unit 30 is hardly interrupted, and most of the information reproduced (that is, converted by the data decoding unit 30) is unreadable. You can watch without feeling the naturalness.
[0072]
Equation (15) shows that the amount of unrecorded recording data in the data recording unit 20 is small, and that “Q ≦ (T_rcv× r_min  )), The conversion speed set by the conversion speed setting unit 43 is set to “r = r_min  Are set so as to satisfy the condition ".
By setting the conversion speed in this way, most of the information reproduced by the data decoding unit 30 (that is, converted by the data decoding unit 30) can be viewed without feeling unnaturalness.
In the information reproducing apparatus according to the present embodiment, the manner in which the data amount Q (that is, the unoutputted recording data amount) of the digital information data recorded in the data recording unit 20 is conceptually shown in FIG. Will be the same as
[0073]
As described above, the information reproducing apparatus according to the present embodiment uses the information providing system for distributing digital information data and information on an estimated required time required for the moving object to reach the next communication area by radio waves.
Then, the conversion speed setting unit, from the data decoding unit, according to the amount of data recorded in the data recording unit and the expected required time until the moving object output from the data receiving unit reaches the next communication area A conversion speed for not interrupting the output reproduction signal can be easily obtained.
In addition, the viewer does not feel unnatural because the conversion speed is too low.
[0074]
【The invention's effect】
An information reproducing apparatus according to the present invention is an information reproducing apparatus mounted on a mobile body and using an information providing system for distributing digital information data by radio waves,
A data receiving unit for receiving digital information data distributed from the information providing system, a digital information data received by the data receiving unit is temporarily recorded, the recorded digital information data is sequentially output, and an unoutputted recording data amount A data recording section that counts and outputs the data, a data decoding section that converts digital information data output from the data recording section into an analog signal and reproduces the data, and a data decoding section according to the amount of unrecorded recording data of the data recording section. And a conversion speed setting unit for setting the conversion speed of the unit. If the transmission path is temporarily disconnected and digital information data distributed from the information providing system cannot be received, the amount of unoutputted recording data (ie, , The conversion speed of the data decoding unit is set to be lower than the original conversion speed according to the amount of data stored in the data recording unit. Reproduction signal outputted from the data decoding unit can be prevented from being interrupted.
[0075]
Further, the information reproducing apparatus according to the present invention further includes a moving speed detecting unit for detecting a moving speed of the moving body, and the conversion speed setting unit detects the unoutputted recording data amount of the data recording unit and the moving speed detecting unit. Since the conversion speed of the data decoding unit is set according to the moving speed to be performed, the conversion speed for suppressing interruption of the reproduction signal output from the data decoding unit can be more accurately obtained.
[0076]
Further, the information reproducing apparatus according to the present invention further includes a moving speed detecting unit for detecting a moving speed of the moving object, a map database mounted on the moving object, and a current position detecting device for detecting a current position of the moving object on the map database. Using the position detecting means and the map database, when the transmission path of the digital information data distributed from the information providing system is disconnected, the moving speed detected by the moving speed detecting unit and the current position information detected by the current position detecting means And a reconnection estimated time calculation unit for estimating a reconnection time until the disconnected transmission path is reconnected based on the data rate. Since the conversion speed of the data decoding unit is set according to the expected reconnection time predicted by the expected connection time calculation unit, interruption of the playback signal output from the data decoding unit is suppressed. It can be very accurately determined in accordance with order of conversion speed road travel condition of the moving body.
[0077]
Further, an information reproducing apparatus according to the present invention includes a plurality of roadside communication devices that are mounted on a moving body and are discretely arranged on a roadside, and a data server that supplies digital information data to the plurality of roadside communication devices. The plurality of roadside communication devices transmit the distance information to the next communication area in addition to the digital information data supplied from the data server to the mobile body traveling in the communication area carried by each roadside communication device. An information reproducing apparatus using an information providing system distributed by
The data receiving unit receives digital information data distributed by radio waves from each roadside communication device of the information providing system and distance information to the next communication area, and the digital information data received by the data receiving unit is once recorded and recorded. A data recording unit that sequentially outputs digital information data that has been output, counts and outputs the amount of recording data that has not been output, and a data decoding unit that converts digital information data output from the data recording unit into an analog signal and reproduces it. A moving speed detecting unit for detecting a moving speed of the moving object, a disconnection based on a moving speed of the moving object detected by the moving speed detecting unit and a distance information to a next communication area received by the data receiving unit; Estimated reconnection time calculation unit that calculates the estimated reconnection time until the transmission path is reconnected, and the amount of unrecorded data in the data recording unit A conversion speed setting unit that sets the conversion speed of the data decoding unit according to the expected reconnection time output from the expected reconnection time calculation unit, so that the digital information data and the distance information to the next communication area can be stored. A conversion speed for suppressing interruption of a reproduction signal output from a data decoding unit can be easily obtained by effectively utilizing an information providing system for distributing by radio waves.
[0078]
Further, an information reproducing apparatus according to the present invention includes a plurality of roadside communication devices that are mounted on a moving body and are discretely arranged on a roadside, and a data server that supplies digital information data to the plurality of roadside communication devices. The plurality of roadside communication devices have, in addition to the digital information data supplied from the data server for the moving body traveling in the communication area carried by each roadside communication device, the moving body arrives at the next communication area An information reproducing apparatus using an information providing system for distributing expected time required information up to the radio wave,
A data receiving unit that receives digital information data distributed by radio waves from each roadside communication device of the information providing system and information of an estimated time required to reach the next communication area, and a digital information data that is received by the data receiving unit. A data recording unit that records and sequentially outputs recorded digital information data, counts and outputs the amount of unoutputted recording data, and converts digital information data output from the data recording unit into an analog signal for reproduction. And a conversion speed setting unit that sets a conversion speed of the data decoding unit according to the amount of unrecorded recording data of the data recording unit and the expected required time information received by the data receiving unit.
Effective use of an information providing system that distributes digital information data and expected time required for a mobile unit to reach the next communication area by radio waves, and to suppress interruption of the playback signal output from the data decoding unit Can be easily obtained.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of an information reproducing apparatus according to a first embodiment.
FIG. 2 conceptually shows how the amount of recorded data changes in the information reproducing apparatus according to the first embodiment.
FIG. 3 is a block diagram showing a configuration of an information reproducing apparatus according to a second embodiment.
FIG. 4 conceptually shows how the amount of recorded data changes in the information reproducing apparatus according to the second embodiment.
FIG. 5 is a block diagram showing a configuration of an information reproducing apparatus according to a third embodiment.
FIG. 6 conceptually shows how the recording data amount changes in the information reproducing apparatus according to the third embodiment.
FIG. 7 is a block diagram showing a configuration of an information reproducing apparatus according to a fourth embodiment.
FIG. 8 is a diagram for explaining an information providing system used by an information reproducing device according to a fourth embodiment.
FIG. 9 is a block diagram showing a configuration of an information reproducing apparatus according to a fifth embodiment.
[Explanation of symbols]
10, 11, 12 data receiving unit
20 Data recording section
30 Data decoding unit
40, 41, 42, 43 Conversion speed setting unit
50 Moving speed detector
60, 61 Expected reconnection time calculation unit
70 Map Database
75 Current position detecting means
80, 81, 82 Roadside communication device
90 Data server
100 Moving object (vehicle)

Claims (6)

An information reproducing apparatus mounted on a mobile body and using an information providing system that distributes digital information data by radio waves,
A data receiving unit that receives digital information data distributed from the information providing system,
A data recording unit that temporarily records the digital information data received by the data receiving unit, sequentially outputs the recorded digital information data, and counts and outputs a non-output recording data amount;
A data decoding unit that converts digital information data output from the data recording unit into an analog signal and reproduces the analog signal;
An information reproducing apparatus, comprising: a conversion speed setting unit that sets a conversion speed of the data decoding unit in accordance with an amount of unrecorded recording data of the data recording unit. A moving speed detecting unit that detects a moving speed of the moving body,
2. The conversion speed setting unit according to claim 1, wherein the conversion speed setting unit sets a conversion speed of the data decoding unit according to a non-output recording data amount of the data recording unit and a moving speed detected by the moving speed detection unit. An information reproducing apparatus according to claim 1. A moving speed detecting unit for detecting a moving speed of the moving body, a map database mounted on the moving body, a current position detecting means for detecting a current position of the moving body on the map database, and the map database When the transmission path of the digital information data distributed from the information providing system is disconnected, the disconnection is performed based on the moving speed detected by the moving speed detecting unit and the current position information detected by the current position detecting unit. A reconnection estimated time calculation unit for estimating a reconnection time until the transmitted transmission line is reconnected, wherein the conversion speed setting unit is configured to output the unoutputted recording data amount of the data recording unit and the 2. The information reproducing apparatus according to claim 1, wherein the conversion speed of the data decoding unit is set in accordance with the estimated reconnection time estimated by the time calculation unit. A plurality of roadside communication devices that are mounted on the moving body and are discretely arranged on the roadside and a data server that supplies digital information data to the plurality of roadside communication devices, wherein the plurality of roadside communication devices are In addition to digital information data supplied from the data server for a mobile body traveling in a communication area carried by each roadside communication device, an information providing system for distributing distance information to the next communication area by radio waves is used. Information reproducing device,
A data receiving unit that receives digital information data distributed by radio waves from each roadside communication device of the information providing system and distance information to a next communication area,
A data recording unit that temporarily records the digital information data received by the data receiving unit, sequentially outputs the recorded digital information data, and counts and outputs a non-output recording data amount;
A data decoding unit that converts digital information data output from the data recording unit into an analog signal and reproduces the analog signal;
A moving speed detecting unit that detects a moving speed of the moving body,
Based on the distance information to the next communication area received by the data receiving unit and the moving speed of the moving object detected by the moving speed detecting unit, an estimated reconnection time until the disconnected transmission path is reconnected is calculated. An estimated reconnection time calculation unit for calculating,
A conversion speed setting unit that sets a conversion speed of the data decoding unit according to an unoutputted recording data amount of the data recording unit and an estimated reconnection time output from the expected reconnection time calculation unit. An information reproducing apparatus characterized by the above-mentioned. A plurality of roadside communication devices that are mounted on the moving body and are discretely arranged on the roadside and a data server that supplies digital information data to the plurality of roadside communication devices, wherein the plurality of roadside communication devices are In addition to the digital information data supplied from the data server for a mobile body traveling in a communication area carried by each roadside communication device, information on an estimated time required for the mobile body to reach the next communication area is transmitted by radio waves. An information reproducing apparatus using an information providing system distributed by
A data receiving unit that receives digital information data distributed by radio waves from each roadside communication device of the information providing system and information of an estimated required time until reaching the next communication area,
A data recording unit that temporarily records the digital information data received by the data receiving unit, sequentially outputs the recorded digital information data, and counts and outputs a non-output recording data amount;
A data decoding unit that converts digital information data output from the data recording unit into an analog signal and reproduces the analog signal;
A conversion speed setting unit that sets a conversion speed of the data decoding unit in accordance with the amount of unrecorded recording data of the data recording unit and the expected required time information received by the data receiving unit. Information reproducing device. The digital information data is composed of video information data and audio information data, and the data decoding unit, when converting and reproducing the video information data, brings the spectrum of the audio information data closer to a normal spectrum before conversion. The information reproducing apparatus according to any one of claims 1 to 5, wherein the information is corrected to:

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