JP4199568B2 - Mobile device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mobile terminal, and more particularly to a mobile terminal having a content recording function for recording desired content received from a broadcasting system and a mobile communication function for performing communication between mobile communication systems.
[0002]
[Prior art]
An example of a conventional portable terminal of this type is disclosed in Patent Document 1. In this prior art, the portable terminal transmits the desired television program to the recording server by transmitting the recording request information of the desired television program to the recording server via the Internet.
[0003]
[Patent Document 1]
JP 2002-185900 A
[0004]
[Problems to be solved by the invention]
However, in the related art, even if the mobile terminal has a recording function, the entire desired television program is recorded on the recording server based on the recording request information regardless of the recording by the mobile terminal. For this reason, there is a problem that the portable terminal may cause the recording server to record an unnecessary part of the television program.
[0005]
Therefore, a main object of the present invention is to provide a portable terminal capable of minimizing recording by the recording server.
[0006]
[Means for Solving the Problems]
  The present invention relates to a portable terminal having a content recording function for recording desired content received from a broadcasting system and a mobile communication function for performing communication between the mobile communication system, in a recording time zone of the desired content by the content recording function. Using the mobile communication function, the generation means for detecting the reception state of the content at predetermined intervals and generating a reception state signal, and the reception state signal generated by the generation meansEvery predetermined periodA portable terminal comprising a first transmission means for transmitting to a specific server, wherein the reception state signal is a signal that causes the specific server to start recording desired content when it is no longer properly received by the specific server. .
[0007]
[Action]
  Recording of content received from the broadcasting system is performed by the content recording function, and communication with the mobile communication system is performed by the mobile communication function. During a time period when desired content is recorded by the content recording function, the reception state of the content is detected every predetermined period to generate a reception state signal, and the first transmission means performs the mobile communication function with the generated reception state signal. UseEvery predetermined periodSend to a specific server. This reception status signal is a signal that can cause the specific server to start recording desired content at that time when the specific server does not properly receive the signal. In this case, the mobile terminal starts recording the desired content on the specific server from the time when the specific server can no longer properly receive the reception status signal, so only the portion of the desired content that could not be recorded well on the mobile terminal. Can be recorded.
[0008]
  The portable terminal transmits the attribute information of the content to the specific server by the second transmission unit before starting the recording of the desired content. This attribute information is information that allows the specific server to recognize the recording time zone of the mobile terminal. in this case,in advanceSince the content attribute information is given to the specific server, the specific server starts recording the content based on the specific signal from the first transmission means and the specific information.In addition, when the specific server cannot properly receive the reception status signal from the mobile terminal and starts recording the desired content, the recording can be ended in accordance with the end time even if there is no instruction from the mobile terminal. it can.
[0009]
  The portable terminal includes a receiving unit and a first activating unit for accepting the setting of the movement mode, and when the setting of the moving mode is received by operating the receiving unit, the first transmitting unit is activated by the first activating unit. Is done. In this case, when the first transmission unit is activated, the portable terminal can periodically transmit the specific signal to the specific server during the recording time zone of the desired content.In addition, the specific server does not always need to detect the reception status signal transmitted from the mobile terminal, and only receives the reception status signal from the start of movement by the operation of the movement mode reception means until the end of the broadcast of the desired content. It only has to be detected.
[0010]
  The portable terminal detects the current position by the detecting means, and determines whether the portable terminal is moving by the determining means based on the detection result. In accordance with the determination result, the first transmission unit is activated by the second activation unit. In this case, it is possible to automatically determine whether or not the mobile terminal is moving, and the mobile terminal can periodically transmit a specific signal to the specific server during a desired content recording time zone.Therefore, even if the portable terminal is not operated by the viewer, it can be the same as the invention according to claim 3.
[0011]
【The invention's effect】
According to the present invention, since the mobile terminal that is recording the content switches the recording of the content from the mobile terminal to the specific server in accordance with the reception state of the desired content, the content recording by the specific server is minimized. be able to.
[0012]
The above object, other objects, features and advantages of the present invention will become more apparent from the following detailed description of embodiments with reference to the drawings.
[0013]
【Example】
With reference to FIG. 1, a proxy recording system 10 according to this embodiment includes a mobile terminal 12, a base station 14, and a recording server 16.
[0014]
When the mobile terminal 12 receives the attribute information of the TV program provided by the terrestrial TV broadcast (hereinafter referred to as “TV broadcast” or “broadcast”) before starting to move, the input attribute information The data is transmitted by e-mail to the recording server 16 installed on the carrier side through the base station 14. When the broadcast of the TV program is started, the mobile terminal 12 that is moving starts recording the TV program and uses the communication signal that the mobile terminal 12 regularly communicates with the carrier to the recording server 16. The reception status information indicating the reception status of the television broadcast is transmitted every predetermined time.
[0015]
When the recording server 16 receives the attribute information from the mobile terminal 12, the recording server 16 stores the information. When the broadcast of the television program is started, the reception state information embedded in the communication signal transmitted from the portable terminal 12 every predetermined time is detected. If the recording server 16 determines from the received reception state information that the reception state of the mobile terminal 12 is poor and the image quality of the video is also deteriorated, it performs proxy recording of the TV program recorded by the mobile terminal 12. Start.
[0016]
Further, the recording server 16 determines that the mobile terminal 12 is in a state where it cannot receive a television broadcast even when the reception state information from the mobile terminal 12 cannot be received for a predetermined time, and is recording on the mobile terminal 12. Start proxy recording of TV programs.
[0017]
In this way, the radio waves that the mobile terminal 12 communicates with the recording server 16 are affected by obstacles and the like to the same extent as the TV broadcast radio waves that the mobile terminal 12 receives. For this reason, in this embodiment, when the mobile terminal 12 becomes unable to communicate with the recording server 16, it is assumed that the mobile terminal 12 cannot receive a television broadcast in a good reception state.
[0018]
Referring to FIG. 2, mobile terminal 12 includes mobile communication circuit 20 that performs mobile communication using a mobile communication system, broadcast program recording circuit 18 that receives a television program broadcast using a television broadcast system, And a CPU 40 that controls both the communication circuit 20 and the broadcast program recording circuit 18.
[0019]
When a dial operation is performed by the operation panel 44, the CPU 40 instructs the radio circuit 24 provided in the mobile communication circuit 20 to perform a calling process. When a connection with the other party is established by this call processing, a call can be made.
[0020]
When the radio circuit 24 receives a call signal through the antenna, the radio circuit 24 notifies the CPU 40 of an incoming call. When the incoming call is notified, the CPU 40 instructs the sound generator 78 provided in the broadcast program recording circuit 18 to generate a ringing sound signal, and provides the broadcast program recording circuit 18 to generate a character signal representing the calling message. Commanded character generator 70. As a result, a ringing tone is output from the speaker 80 and a calling message is output from the monitor 72. When an incoming call operation is performed through the operation panel 44 in response to the output of a ringing tone and a call message, a connection with the other party is established and a call can be made.
[0021]
When the call is ready, the audio signal from the microphone 36 is amplified by the amplifier 34 and further converted into audio data as a digital signal by the AD / DA conversion circuit 28. The converted audio data is encoded into packet data, that is, an audio packet by the signal processing circuit 26, and the encoded audio packet is modulated by the radio circuit 24. The modulated voice packet is transmitted to the other party through the antenna 22.
[0022]
On the other hand, a packet sent from the other party is received by the antenna 22 and demodulated by the radio circuit 24. The demodulated audio packet is decoded into audio data by the signal processing circuit 26, and the decoded audio data is converted into an audio signal which is an analog signal by the AD / DA conversion circuit 28. The converted audio signal is output from the speaker 32 via the amplifier 30.
[0023]
Further, even when the mobile terminal 12 is not in a call-ready state, the CPU 40 instructs the radio circuit 24 to periodically transmit a communication signal to the carrier base station in a carrier-specific communication format. The CPU 40 embeds information (reception state information) indicating the reception state of the television broadcast acquired from the tuner 52 described later in this communication signal, and transmits it to the recording server 16 through the base station. This reception state information is information indicating one of three states, “good”, “normal”, and “bad”, depending on the reception state of the television broadcast.
[0024]
When a mail is created by the operation panel 44 and a transmission operation is performed, the CPU 40 instructs the radio circuit 24 to connect to a site that manages the destination mailbox, and encodes the created mail data with a signal processing circuit. 26. The created mail data is converted into packet data, that is, a mail packet by the signal processing circuit 26, and the converted mail packet is transmitted to a desired site through the radio circuit 24 and the antenna 22.
[0025]
If a mail packet exists in his / her mailbox, the mail packet is received through the antenna 22. The received mail packet is demodulated by the radio circuit 24 and decoded by the signal processing circuit 26. In response to the mail arrival notification from the radio circuit 24, the CPU 40 stores the mail data decoded by the signal processing circuit 26 in the memory 46 and instructs the character generator 70 to output a character signal indicating the arrival of the mail data. . As a result, an icon indicating mail reception is displayed on the monitor 72.
[0026]
When the movement mode switch 44a of the operation panel 44 is pressed, the mobile terminal 12 enters the movement mode. Next, when the attribute information is input by operating the operation panel 44 and the recording reservation switch 44b is pressed, the CPU 40 saves the attribute information in the memory 46 and mail packet based on the input attribute information of the television program. Create Then, the address of the recording server 16 stored in advance in the memory 46 is called and the created mail packet is transmitted. Here, the attribute information includes information such as a broadcast time zone and a broadcast channel of the television program.
[0027]
In addition, the recording data proxy-recorded by the recording server 16 is attached to an email and transmitted to the mobile terminal 12. The transmitted recording data is packet data composed of video packets and audio packets. This packet data is given to the radio circuit 24 through the antenna 22 and demodulated. The demodulated packet data is stored in the memory card 62 through a demultiplexer 58 and a memory card controller 60 described later.
[0028]
Further, a case where a television program is recorded using the mobile terminal 12 will be described. The CPU 40 activates the broadcast program recording circuit 18 and instructs the tuner 52 to select a channel. The tuner 52 extracts a high frequency signal of a desired channel from the high frequency signal of the television broadcast received by the antenna 50, and performs a demodulation process according to the MPEG format on the extracted high frequency signal. As a result, digital broadcast data of a desired channel is output from the tuner 52. The output digital broadcast data is given to the demultiplexer 58 via the buffer memory 54.
[0029]
The demultiplexer 58 extracts audio packets and video packets from the given digital broadcast data, and provides them to the memory card controller 60. The memory card controller 60 receives audio packets and video packets from the demultiplexer 58 and records them in the memory card 62. In this way, the mobile terminal 12 records the video and audio of the TV program.
[0030]
Next, a case where a television program recorded on the memory card is reproduced will be described. The memory card controller 60 reads audio packets and video packets from the memory card 62 and supplies them to the AV selector 64.
[0031]
The AV selector 64 supplies the extracted audio packet and video packet to the MPEG2-AAC audio decoder 74 and the MPEG4 video decoder 66, respectively.
[0032]
The MPEG2-AAC audio encoder 74 decodes a given audio packet to generate audio data. The generated audio data is converted into an audio signal which is an analog signal by the D / A converter 76, and the converted audio signal is given to the speaker 80. As a result, the sound of the television program broadcast on the desired channel is output from the speaker 80.
[0033]
The MPEG4 video decoder 66 generates video data by decoding the supplied video packet, and supplies the generated video data to the NTSC encoder 68. This video data is converted into a composite video signal by the NTSC encoder 68, and the converted composite video signal is output to the monitor 72. As a result, the video of the television program broadcast on the desired channel is displayed on the screen of the monitor 72.
[0034]
Next, a case where a TV program is directly viewed on the mobile terminal 12 will be described. As described in detail in the operation for recording, audio packets and video packets are extracted from the digital broadcast data of a desired channel output from the tuner 52 by the demultiplexer 58, and the extracted audio packets and video packets are converted into AV. This is given to the selector 64. Then, as described in detail in the operation for reproduction, when audio packets and video packets are supplied to the MPEG2-AAC audio decoder 74 and the MPEG4 video decoder 66, audio and video are output from the speaker 80 and the monitor 72, respectively. The
[0035]
The CPU 40 is a multitasking CPU equipped with a multitasking OS. In addition to the operation panel 44, a memory 46 and a clock 42 are connected to the CPU 40. The memory 46 stores attribute information input from the operation panel 44. Further, based on the time information from the clock 42 and the attribute information from the memory 46, the CPU 40 starts or ends the recording of the television program. When the broadcast of the television program is started, reception status information is transmitted to the recording server 16 at predetermined time intervals.
[0036]
Next, referring to FIG. 3, the recording server 16 is installed on the carrier side via a base station, and includes a radio circuit 84. When a mail including attribute information transmitted from the mobile terminal 12 is given through the base station and the communication connector 82, the radio circuit 84 demodulates and gives it to the information processing circuit 86. The information processing circuit 86 reads the attribute information from this mail and stores it in the memory 96.
[0037]
In addition, when the communication signal in which the reception state information from the mobile terminal 12 is embedded is supplied to the information processing circuit 86 through the wireless circuit 84, the CPU 92 extracts the reception state information and determines the television broadcast reception state of the mobile terminal 12. to decide. Then, when the reception status information is “good” or “normal”, the CPU 92 determines that the mobile terminal 12 is receiving and recording the television broadcast in a good state, and the HDD 92 is connected to the hard disk 100 via the HDD 98. No substitute recording is ordered.
[0038]
However, if the reception status information is “bad”, the CPU 92 determines that the image quality of the recorded video is poor because the mobile terminal 12 has not received the television broadcast in a good state. Then, the CPU 92 calls the attribute information stored in the memory 96 and, after making the determination, causes the hard disk 100 to perform proxy recording of the television program via the HDD 98. Even when the mobile terminal 12 cannot receive a television broadcast at all, the reception status information is “bad”.
[0039]
Further, even when the recording server 16 does not receive the reception status information from the mobile terminal 12 at a predetermined time interval after the start of the broadcast of the TV program, the CPU 92 interrupts the recording because the mobile terminal 12 cannot receive the TV broadcast. Judge that Then, similarly to the case where the reception status information is “bad”, the television program is recorded on the hard disk 100 via the HDD 98 from the time when the determination is made.
[0040]
Here, the broadcast time zone of the television program and the predetermined time interval are determined by the CPU 92 based on the time information from the clock 94 connected to the CPU 92 and the attribute information stored in the memory 96.
[0041]
With reference to FIG. 4, the portable terminal 12 enters the movement mode when the movement mode switch 44 a of the operation panel 44 is pressed, and transmits a movement mode signal to the recording server 16. The recording server 16 that has received the movement mode signal similarly enters the movement mode.
[0042]
Next, attribute information such as a broadcast time zone and a broadcast channel of a television program to be recorded is input from the operation panel 44. When the recording reservation switch 44 b on the operation panel 44 is pressed, this attribute information is stored in the memory 46 of the portable terminal 12 and transmitted to the recording server 16. The recording server 16 receives this attribute information and stores it in the memory 96.
[0043]
Next, the portable terminal 12 turns on the tuner 52 when one minute before the broadcast start time of the television program. When the broadcast start time comes, the mobile terminal 12 records the television program on the memory card 62. At the same time, the mobile terminal 12 transmits reception state information indicating the reception state of the television broadcast to the recording server 16 using a communication signal between the mobile terminal 12 and the carrier.
[0044]
When the reception status information received by the recording server 16 is “good” or “normal”, the recording server 16 does not record the television program. Thereafter, the portable terminal 12 transmits reception state information to the recording server 16 every minute. The recording server 16 determines the state of the video recorded by the mobile terminal 12 based on the received reception state information. In FIG. 4, the reception status information transmitted by the mobile terminal 12 is a signal indicating that the reception status of the mobile terminal 12 is “good” or “ordinary” until a signal 2 minutes after the start of broadcasting. Receive status information is received. For this reason, the recording server 16 does not need to perform proxy recording.
[0045]
However, the reception status information 3 minutes after the start of broadcasting indicates that the reception status of the mobile terminal 12 is “bad”. Therefore, the recording server 16 that has received this signal determines that the recording state of the television program recorded on the portable terminal 12 is poor because the portable terminal 12 has moved to an area where the reception state of the television broadcast is poor. For this reason, the recording server 16 calls the attribute information stored in the memory 96, starts proxy recording from the time when this determination is made, and continues until the broadcast end time.
[0046]
Note that the reception status information 4 minutes after the start of broadcasting is not only that the reception status of the mobile terminal 12 is “bad”, but the recording server 16 has not received this signal. Thus, not only when the reception status information received by the recording server 16 is “bad”, but also when the recording server 16 cannot receive the reception status information, the recording server 16 cannot receive the TV broadcast from the mobile terminal 12. Since it has moved to the area, it is determined that the television program cannot be recorded. Similarly, the recording server 16 starts the proxy recording from the time of making this determination, and continues until the broadcast end time.
[0047]
At this time, the tens of seconds until the recording server 16 starts the proxy recording after the mobile terminal 12 cannot record the television program in a good state is a blank time in which neither is recorded. This blank time can be made shorter if the reception status information transmitted from the portable terminal at intervals of 1 minute is transmitted at shorter intervals.
[0048]
When the recording server 16 ends the proxy recording, the recording server 16 notifies the portable terminal 12 by mail that the proxy recording has ended. When a recording data transmission request is received from the mobile terminal 12, the recording server 16 attaches the recording data to an email and transmits it to the mobile terminal 12.
[0049]
Next, the operation of the CPU 40 of the mobile terminal 12 will be described with reference to FIG. First, it waits until it becomes a movement mode by step S1. When the movement mode switch 44a is pressed, the movement mode is set, and a movement mode signal is transmitted to the recording server 16 in step S3.
[0050]
Next, in step S5, the process waits until attribute information is input. When attribute information is input from the operation panel 44, the recording reservation switch 44b is pressed. When the recording reservation switch 44b is pressed, in step S7, the CPU 40 saves the attribute information in the memory 46, creates a mail including the attribute information, and transmits it to the recording server 16.
[0051]
In step S9, the process waits until one minute before the broadcast start time of the television program. If it is one minute before the broadcast start time, the tuner 52 is turned on in step S11, and in step S13, the process waits until the broadcast start time is reached.
[0052]
When the broadcast start time is reached, in step S15, the CPU 40 checks the reception state of the television broadcast channel received by the tuner 52. In step S17, the checked reception status information is embedded in a periodic communication signal between the mobile terminal 12 and the carrier and transmitted to the recording server 16.
[0053]
Next, in step S19, in order to determine whether or not the mobile terminal 12 can record the television program satisfactorily, it is determined whether or not the reception state of the television broadcast is “bad”. As a result, if the reception state is not “bad”, that is, “good” or “normal”, the mobile terminal 12 determines that the TV program can be recorded well, and in step S21, the TV program memory card is recorded. Recording to 62 is started.
[0054]
In step S23, the process waits for another minute. When one minute has elapsed, in step S25, the CPU 40 checks the reception status of the channel received by the tuner 52 again. In step S27, reception state information indicating the reception state of the television broadcast is transmitted to the recording server 16.
[0055]
Next, in step S29, it is determined whether or not the time indicated by the clock 42 has reached the broadcast end time of the television program stored in the memory 46. As a result, when the broadcast end time is reached, the recording of the television program is terminated in step S31, and the tuner 52 is turned off in step S35. If the broadcast end time has not been reached, the process returns to step S23.
[0056]
On the other hand, if it is determined in step S19 that the CPU is in a poor reception state of the television broadcast and the television program cannot be recorded on the memory card 62 in a good state, it waits until the broadcast end time is reached in step S37, and the broadcast ends When the time comes, the power of the tuner 52 is turned off in step S35.
[0057]
Next, the operation of the CPU 92 of the recording server 16 will be described with reference to FIG. First, it waits until it receives the movement mode signal from the portable terminal 12 at step S41. When the movement mode signal is received, the recording server 16 is switched to the movement mode. Next, it waits until attribute information is received from the portable terminal 12 by step S43. When the attribute information is received, the received attribute information is stored in the memory 96 in step S45.
[0058]
In step S47, the process waits until the broadcast start time of the television program is reached. When the broadcast start time is reached, in step S49, the CPU 92 determines whether or not reception state information has been received from the portable terminal 12. If the reception status information has not been received, in step S51, the process waits for another 10 seconds to determine whether the reception status information has been received. Here, the reason for waiting for 10 seconds is to consider a time lag from when the portable terminal 12 transmits the reception state information to when the recording server 16 receives and confirms it.
[0059]
If it is determined that the reception status information has not been received even after 10 seconds have elapsed, in step S53, the CPU 92 commands the hard disk 100 to substitute record the television program via the HDD 98. In step S55, it waits for the broadcast end time from the time information from the clock 94 and the broadcast end time of the TV program stored in the memory 96. When the broadcast end time is reached, in step S57, the TV program End proxy recording of.
[0060]
On the other hand, if reception state information is received from the portable terminal 12 in step S49, it is determined in step S59 whether the reception state of the portable terminal 12 is “bad” from the reception state information. As a result, if the reception state is “bad”, proxy recording of the television program to the hard disk 100 is started via the HDD 98 in step S53.
[0061]
If it is determined in step S59 that the reception state is not “bad”, that is, “good” or “normal”, the process waits until one minute elapses in step S61. In step S63, it is determined whether or not it is the broadcast end time. If the broadcast end time is reached, the proxy recording of the television program is ended in step S57. If the broadcast end time has not been reached, the process returns to step S49.
[0062]
As described above, the television program broadcast by the television broadcast system is recorded by the broadcast program recording circuit 18. Communication with the mobile communication system is performed by the mobile communication circuit 20. During a time period when a desired television program is recorded, the mobile terminal 12 periodically receives reception status information generated according to the reception status of the television broadcast reception status between the mobile terminal 12 and the carrier. Embedded in the communication signal, and periodically transmitted to the recording server 16. If the reception status information cannot be received or the reception status of the mobile terminal 12 is “bad”, the recording server 16 starts recording the television program at that time. In this case, since the recording server 16 cannot receive the reception state information properly, the mobile terminal 12 causes the recording server 16 to start recording the TV program. Only the portion that could not be recorded can be recorded.
[0063]
The portable terminal 12 transmits the attribute information to the recording server 16 by pressing the recording reservation switch 44b before starting to record the desired television program. The recording server 16 recognizes the recording time zone of the television program based on the attribute information of the television program. In this case, the recording server 16 starts recording a television program based on the attribute information and the reception state signal from the portable terminal 12.
[0064]
When the movement mode switch 44a is pressed, the mobile terminal 12 is set to the movement mode. Then, when the mobile terminal 12 is in the recording time zone of the TV program, reception status information indicating the reception status of the TV broadcast is embedded in a communication signal periodically performed between the mobile terminal 12 and the carrier, and the recording server 16 to send.
[0065]
The mobile terminal 12 detects the current position by GPS and determines whether or not it is moving. And when the portable terminal 12 is moving, when it is time to record a television program, the reception status information indicating the reception status of the television broadcast is periodically transmitted between the portable terminal 12 and the carrier. It is embedded in the signal and transmitted to the recording server 16. In this case, it is automatically determined whether or not the mobile terminal 12 is moving, and the mobile terminal 12 periodically transmits the reception status information to the recording server 16 during the time period when the desired television program is recorded. can do.
[0066]
When the mobile terminal 12 is set to the movement mode, the movement mode switch 44a is pressed to enter the movement mode. However, the setting of the movement mode of the mobile terminal 12 is not limited to this, a GPS is provided inside the mobile terminal 12, and the CPU 40 detects that the mobile terminal 12 is moving based on position information from the GPS, You may set to movement mode. In addition, when the mobile terminal 12 is PHS, the CPU 40 may detect that the PHS is moving based on regular communication between the PHS and the base station, and may set the movement mode.
[0067]
In this embodiment, the recording server 16 is described as being installed on the carrier side. However, the recording server 16 may be connected to the Internet via the carrier. However, the reception state information transmitted from the portable terminal 12 is attached to the mail by the carrier and transmitted to the recording server 16.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of the present invention.
FIG. 2 is a block diagram showing the mobile terminal 12 of FIG. 1 embodiment.
FIG. 3 is an illustrative view showing a recording server 16 of FIG. 1 embodiment;
4 is an illustrative view showing one portion of operation of FIG. 1 embodiment; FIG.
FIG. 5 is a flowchart showing a part of the operation of the mobile terminal 12 of FIG. 2 embodiment;
6 is a flowchart showing a part of the operation of the recording server 16 in the embodiment in FIG. 3; FIG.
[Explanation of symbols]
12 ... Mobile terminal
16 ... Recording server
18 ... Broadcast program recording circuit
20 ... Mobile communication circuit
40 ... CPU
44a ... Movement mode switch
44b ... Recording reservation switch

Claims (4)

In a mobile terminal having a content recording function for recording desired content received from a broadcasting system and a mobile communication function for performing communication between the mobile communication system,
Generating means for detecting a reception state of the content at predetermined intervals and generating a reception state signal during a recording time zone of the desired content by the content recording function; and moving the reception state signal generated by the generation means Comprising a first transmission means for transmitting to the specific server every predetermined period using a communication function;
The portable terminal according to claim 1, wherein the reception status signal is a signal that causes the specific server to start recording the desired content when it is no longer properly received by the specific server. Prior to the start of recording of the desired content, further comprising second transmission means for transmitting the attribute information of the desired content to the specific server,
The mobile terminal according to claim 1, wherein the attribute information allows a specific server to recognize the recording time zone. The mobile terminal according to claim 1, further comprising: a receiving unit that receives a setting of a movement mode; and a first active unit that activates the first transmitting unit when the setting is received by operating the receiving unit. Detection means for detecting the current position;
The apparatus further comprises: a determination unit that determines presence / absence of movement based on a detection result of the detection unit; and a second activation unit that activates the first transmission unit according to the determination result of the determination unit. 2. The mobile terminal according to 2.

Images