JP2004282503A - Wireless receiving method, wireless receiver, and wireless receiving program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wireless receiving method, a wireless receiver, and a wireless receiving program which enables stable viewing and listening of a desired information signal, by complementing the information signal provided by a multicast service in a complementary network. <P>SOLUTION: By a second signal receiving means 21b, a wireless receiver 20a receives the information signal (program) which is distributed from a base station 10 allotted by a signal allotment section 24a, and viewed and listened by a wireless receiver 20b or 20c. The wireless receiver 20a stores the information signal in a storage means 22b, and distributes the signal stored in the storage means 22b by a signal distributing section 24b based on a request from the wireless receiver 20b or 20c. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a radio reception method, a radio receiver, and a radio reception program for receiving an information signal wirelessly transmitted in packet units from a base station by complementing with another radio receiver connected via a network. .
[0002]
[Prior art]
In general, in information transmission by radio waves, it is sometimes difficult to secure a line for transmitting information due to changes in the propagation environment of radio waves and congestion of communication lines, such as shielding, interference, and fading. The situation is simply referred to as "line instability.") Assuming such a situation, usually, when transmitting an information signal from a base station, a time interval is required to insert a guard interval for preventing interference in the information signal or to convert a burst error into a random error. An information signal is interleaved on an axis, and a modulation method and a transmission method are dynamically changed according to the state of a wireless propagation path. Similarly, in order to cope with an unstable state of a line, a frequency diversity technique is used.
[0003]
On the other hand, as a technique for relieving an unstable state of a line on a receiver side, a spatial diversity technique using a plurality of antennas installed at a specific distance according to a radio wave propagation environment is used. Similarly, a part that cannot be received by a receiver is frequently transmitted to a base station with the help of a communication protocol or the like.
[0004]
Further, as another technique for relieving the unstable state of the line on the receiver side, a plurality of receivers have communication means for communicating with each other to form a network, and a receiver cannot receive an information signal. In such a case, a technique for acquiring an information signal from another receiver that has received the information signal is disclosed (see Patent Document 1).
[0005]
This technology uses both vehicle-to-vehicle communication and road-to-vehicle communication in an intelligent transportation system, and when a traveling vehicle receives traffic-related information and a certain vehicle cannot receive the target information signal by road-to-vehicle communication. Further, an information signal received by another vehicle through road-to-vehicle communication is received using vehicle-to-vehicle communication.
[0006]
Further, a plurality of receivers receiving information signals by a broadcast service wirelessly transmitted from a base station through an unstable radio wave propagation environment perform short-distance and high-speed wireless communication, and a network between the receivers ( A technology for transmitting and receiving information signal packets that cannot be mutually received by configuring a complementary network) is disclosed by the present applicant (see Patent Document 2).
[0007]
According to this technique, as shown in FIG. 10, a receiver stores an information signal in fragmentary packet units received in an unstable line in a storage device, and based on management information included in the information signal. Recognize the packets that are insufficient for reconstructing the information signal, collect all the packets necessary for viewing the information signal from other receivers via a network (complementary network), and reconstruct the information signal. Is to restore.
[0008]
[Patent Document 1]
JP-A-10-336092 (Paragraph No. 20-23, FIG. 1-2)
[Patent Document 2]
JP-A-2002-141856 (Paragraph No. 14-22, FIG. 1)
[0009]
[Problems to be solved by the invention]
However, in the conventional technology, the technology of giving a signal redundancy in advance at the time of transmission from the base station, the technology of retransmitting a portion missing at the receiver from the base station, the diversity technology, etc. all improve the line securing rate. The purpose is that the line between the base station and the receiver must be connected with high frequency, and there is a problem that it is not possible to cope when it is difficult to secure the line due to the deterioration of the propagation environment . Also, if the line with the base station is interrupted during signal transmission, it is difficult to use the fragmentary information signal received halfway, and when the connection can be re-established, the necessary information signal is re-created. I needed to have it sent.
[0010]
Further, the technology disclosed in Patent Document 1 acquires an information signal that a certain vehicle cannot receive by road-to-vehicle communication from another vehicle, but each vehicle can only partially acquire the information signal. In such a case, there is a problem that all information signals cannot be reconstructed.
[0011]
Further, the technique disclosed in Patent Document 2 requires that a plurality of receivers always receive the same information signal in order for a complementary network to function. However, even if the current broadcast wave is the same terrestrial broadcast, programs on a plurality of channels are broadcast simultaneously, and a viewer selects and watches from the plurality of programs. Therefore, the conventional technology is effective in restoring the information signal by forming the complementary network between the receivers receiving the information signal, but the receiver receiving the same information signal exists in the complementary network. Otherwise, it would not work.
[0012]
The present invention has been made in view of the above problems, and can be selectively received a plurality of information signals, even in an environment where the number of receivers receiving the same information signal is limited, the limited By making the complementary network composed of the number of receivers function effectively, and sharing and complementing the packets of the information signal that is lost due to the unstable line, it is possible for the viewer to stably view the information signal desired by the viewer. An object of the present invention is to provide a wireless receiving method, a wireless receiver, and a wireless receiving program that are enabled.
[0013]
[Means for Solving the Problems]
SUMMARY OF THE INVENTION The present invention has been devised to achieve the above object. First, a wireless receiving method according to claim 1 is a wireless receiving method provided with a plurality of signal receiving means. A wireless receiving method for complementarily receiving a plurality of information signals wirelessly transmitted in units, comprising forming a network with the plurality of wireless receivers, and receiving the information signals received by the plurality of signal receiving units. The information signal is complemented by acquiring the packet which cannot be received by a predetermined wireless receiver from another wireless receiver by sharing the packet.
[0014]
According to this method, the wireless receiving method receives a plurality of information signals in a plurality of wireless receivers provided with a plurality of signal receiving means, thereby transmitting information signals other than the information signal being viewed by the viewer. Can be received. Further, by configuring a network with a plurality of wireless receivers, sharing a packet of an information signal, and acquiring a packet that cannot be received by a predetermined wireless receiver from another wireless receiver, the information signal is complemented. It can be performed. This allows a plurality of wireless receivers to share information signals other than the information signal being viewed by the viewer, so that even if the reception state is unstable, the information signals can be stably transmitted. Can be viewed.
[0015]
Further, the wireless receiving method according to claim 2 includes, among a plurality of information signals wirelessly transmitted from the base station in packet units, a first signal receiving unit that receives a first information signal, and at least one set of the first signal receiving unit. By connecting a plurality of wireless receivers provided with at least one set of second signal receiving means for receiving a second information signal via a network, the information signals transmitted from the base station are complemented with each other. A wireless receiving method for receiving includes a viewing information collecting step, a signal allocating step, a signal storing step, and a collection complementing step.
[0016]
According to this method, in the viewing information collecting step, each of the wireless receivers collects, via a network, the viewing information received or received by the first signal receiving unit and the second signal receiving unit. In the signal assigning step, each wireless receiver assigns a second information signal received by the second signal receiving means based on the viewing information collected in the viewing information collecting step.
[0017]
For example, if there is a wireless receiver that has a fixed network and is always turned on, the wireless receiver is used as a master station, and the master station collects the viewing information of each wireless receiver, and receives each wireless receiver. The second information signal received by the second signal receiving means of the device is assigned. Thus, for example, when a program (information signal) of “Channel 1” is being viewed on the first signal receiving means of a certain wireless receiver, the program is displayed on the second signal receiving means of another wireless receiver. Is assigned to “channel 1”.
[0018]
Next, in the wireless receiving method, in the signal storing step, each wireless receiver reconstructs the first information signal and the second information signal into packets of the first information signal and the second information signal. It is stored together with the management information which is information for use. As a result, with respect to the first information signal that is viewed by a certain wireless receiver, another wireless receiver stores the same information signal as a complementary information signal.
[0019]
Then, in the wireless reception method, in the collection complementing step, each wireless receiver transmits a missing packet for viewing the first information signal from another wireless receiver storing the missing packet to the network. Collect and complement through. Thus, the viewer can view the information signal well even in an unstable reception situation.
[0020]
A wireless receiver according to a third aspect is a wireless receiver that complements and receives an information signal wirelessly transmitted from a base station in packet units with another wireless receiver connected via a network. Thus, the communication device, the first and second signal receiving devices, the signal allocating device, the storing device, the signal distributing device, the signal collecting device, and the signal processing device are provided.
[0021]
According to this configuration, the wireless receiver receives the first information signal selected by the viewer by switching the channel or the like by the first signal receiving unit, and transmits the other information via the network by the signal allocating unit. Obtain viewing information of the receiver, allocate at least one set of second information signals, which are information signals for complementation, based on the viewing information, and use at least one Receive an information signal.
[0022]
Further, the wireless receiver converts the first information signal received by the first signal receiving means and the second information signal received by the second signal receiving means into a first information signal and a second information signal. The packet is stored in the storage unit together with management information that is information for reconfiguring the packet.
[0023]
Further, the radio receiver reads out the packet requested by the other radio receiver from the storage means by the signal distribution means, transmits the packet to the other radio receiver, and outputs the first information signal by the signal collection means. Is collected from another wireless receiver via a network and stored in the storage means. As a result, the first information signal to be viewed by the wireless receiver is stored, and the second information signal for complementing the first information signal of another wireless receiver is stored.
The wireless receiver configures a network with another wireless receiver and performs communication with the other wireless receiver by the communication unit.
[0024]
Then, the wireless receiver collects the first information signal for viewing stored in the storage means by the signal processing means, and collects the first information signal for viewing based on the missing packets stored in the storage means by the signal collecting means. To restore.
[0025]
As described above, the wireless receiver forms a network (complementary network) with another wireless receiver, so that the information signal to be viewed can be shared with the other wireless receiver via the network. Further, the wireless receiver includes the second signal receiving means, so that the viewer can receive the complementary second information signal in addition to the viewing first information signal that the viewer is viewing. Therefore, it is possible to provide a plurality of information signals to another wireless receiver.
[0026]
Further, the wireless reception program according to claim 4 is a wireless reception program for complementarily receiving an information signal wirelessly transmitted from the base station in packet units with another wireless receiver connected via a network. The computer mounted on the receiver functions as communication means, first and second signal receiving means, signal allocating means, signal distribution means, signal collecting means, and signal processing means.
[0027]
According to this configuration, the wireless reception program receives the first information signal selected by the viewer by switching the channel or the like by the first signal reception unit, and transmits the other information signal via the network by the signal assignment unit. Obtain viewing information of the receiver, allocate at least one set of second information signals, which are information signals for complementation, based on the viewing information, and use at least one Receive an information signal.
[0028]
In addition, the wireless reception program may be configured such that the signal distribution unit converts the first information signal received by the first signal reception unit and the second information signal received by the second signal reception unit into a first information signal and a second information signal. A packet requested by another wireless receiver is read from a storage unit that stores the information signal together with management information that is information for reconstructing the information signal packet, and is transmitted to the other wireless receiver.
[0029]
Then, the wireless reception program causes the signal collection unit to collect a shortage packet that is insufficient for viewing the first information signal from another wireless receiver via a network and store the packet in the storage unit. As a result, the first information signal to be viewed by the wireless receiver is stored, and the second information signal for complementing the first information signal of another wireless receiver is stored.
[0030]
Then, the wireless reception program collects the first information signal for viewing stored in the storage means by the signal processing means, collects the first information signal for viewing in the signal collecting means, and stores the first information signal in the viewing data based on the lacking packet stored in the storage means. To restore.
The wireless receiver program communicates with other wireless receivers by configuring a network by a communication unit.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[Configuration of broadcast service distribution system]
FIG. 1 is a system configuration diagram showing a configuration of a broadcast service distribution system including a wireless receiver according to the present invention. Here, terrestrial broadcasting, satellite broadcasting, an intelligent transportation system, and the like are assumed as broadcasting and communication broadcasting services for simultaneously distributing information signals.
[0032]
The information signal distributed (transmitted) here is a transport stream (TS) standardized by an MPEG2 (Moving Picture Experts Group 2) system (ISO / IEC13818-1 standard) including packets constituting a broadcast program. The description will be made assuming that management information such as charging and authentication can be obtained by receiving and demodulating this TS.
[0033]
As shown in FIG. 1, a broadcast service distribution system 1 includes a base station 10 that transmits an information signal of a broadcast service, and a plurality of wireless receivers 20 (20a, 20b, and 20c) that receive the information signal. Have been.
The base station 10 distributes (transmits) an information signal distributed as a broadcast or communication to a plurality of wireless receivers 20 in one direction and in real time by radio as a broadcast service. This information signal is delivered to each wireless receiver 20 in the form of a transport stream.
[0034]
The propagation distance of the radio wave from the base station 10 to the radio receiver 20 is longer than the propagation distance between the radio receivers 20 (20a, 20b, 20c). The environment from the base station 10 to the radio receivers 20 (20a, 20b, 20c) depends on the movement of the viewer or the surrounding terrain and the height of the building until the information signal reaches the base station 10, and the like. It is assumed that, in an unstable line environment in which the reception state changes, when an information signal is received only by a single wireless receiver 20, the environment cannot receive the information signal halfway.
[0035]
The wireless receiver 20 receives an information signal distributed from the base station 10 and presents it as viewing data (video, audio, etc.) that can be viewed by a viewer. The wireless receiver 20 constructs a network 3 with a plurality of other wireless receivers 20 and shares an information signal received by each, so that a certain wireless receiver 20 (for example, 20a) does not store the information signal. An information signal can be received from a wireless receiver (for example, 20b) on another network 3. The wireless receiver 20 may be placed in a fixed environment such as a home or office, may be placed in a moving body such as an automobile, or may be a portable receiver.
[0036]
The network 3 connects the wireless receivers 20 (20a, 20b, 20c), and in this case, constructs a local area network (LAN). It is assumed that this LAN can be expanded to a range where it can connect to the same server in the same service provider.
[0037]
Here, the network 3 is configured by three wireless receivers 20 (20a, 20b, 20c), but the present invention is not limited to this. The number of wireless receivers 20 is not limited as long as the network is in an ad hoc mode or a network environment where the same router or access point can be used.
[0038]
In addition, as the high-speed wireless communication network technology constituting the network 3, IEEE802.11a, a wireless LAN which is currently being developed for high speed, a fourth generation mobile phone, a vehicle-to-vehicle communication of an intelligent transportation system, a millimeter-wave wireless communication, and the like. A network technology using a millimeter wave such as a LAN can be used.
[0039]
<Receiver configuration>
Next, the configuration of the wireless receiver 20 will be described in detail with reference to FIG. The wireless receiver 20 receives a transport stream, which is an information signal distributed from the base station 10, in packet units, and presents it as viewing data (video, audio, etc.) that can be viewed by a viewer. Here, the wireless receiver 20 is connected to a signal receiving unit 21 (first signal receiving unit 21a, second signal receiving unit 21b), a storage unit 22 (22a, 22b), a communication unit 23, a control unit 24, And processing means 25.
[0040]
The signal receiving unit 21 receives a transport stream, which is an information signal distributed from the base station 10, in units of packets (TS packets). The signal receiving unit 21 switches and receives the program of the information signal distributed from the base station 10 according to the channel selection (channel) information notified from the control unit 24. The program (packet) received here is stored in the storage unit 22. Here, two signal receiving units 21 are provided, a first signal receiving unit 21a and a second signal receiving unit 21b.
[0041]
The first signal receiving means 21a is for receiving an information signal for a viewer watching with the wireless receiver 20 to perform normal viewing. That is, the first signal receiving means 21a allows the viewer to select a program by using an input means such as a remote controller (not shown), thereby transmitting an information signal (first information signal) desired by the viewer from the base station 10. To receive. The program (packet) received here is stored in the storage unit 22a.
[0042]
The second signal receiving unit 21b transmits an information signal (second signal) from the base station 10 in order to supplement a packet that another wireless receiver (for example, 20b or 20c) on the same network 3 could not receive. Information signal). The program (packet) received here is stored in the storage unit 22b. The selection of the program by the second signal receiving means 21b is instructed by the signal allocating unit 24a of the control means 24.
[0043]
The storage unit 22 stores the packet (TS packet) received by the signal receiving unit 21. The storage unit 22 is a general recording medium such as a semiconductor memory and a hard disk. Here, the storage unit 22 stores the information signal (first information signal) received by the first signal receiving unit 21a, and the information signal (second information signal) received by the second signal receiving unit 21b. ) Is stored in the storage means 22b, but may be the same storage means. In this case, it is assumed that the first information signal and the second information signal are separately stored in the same storage means.
[0044]
Here, the storage contents stored in the storage unit 22 will be described with reference to FIG. FIG. 4 is a data structure diagram showing an example of a TS packet storage format.
As shown in FIG. 4, in order to store (save) the TS packets in the storage unit 22 (FIG. 1), a plurality of TS packets are grouped (here, N packets) and assigned an identifier. That is, it is assumed that a certain packet A (packet name) is composed of a unique identifier and a plurality (N) of TS packets. The TS packet usually has a size of 188 bytes, and is a packetized bit stream constituting a program, or various identification signals (ISO / IEC13818-1 standard and ARIB STD-B10 standard “used in digital broadcasting”). Information described in “Program Sequence Information to be Performed”), which contains information necessary for synchronization identification, packet identification, continuity index (sequence number of packet), and identification of the installed bitstream. A header signal is added.
Returning to FIG. 1, the description will be continued.
[0045]
The communication unit 23 constructs the network 3 with the other wireless receivers 20 (20b, 20c) and mutually transmits and receives packets (TS packets) that complement information signals. The transmission and reception of the TS packet is performed in the same manner as the file transfer using the Internet Protocol (IP) known in the Internet or the upper TCP / IP (Transmission Control Protocol / Internet Protocol) or the UDP / IP (User Datagram Protocol / Internet Protocol). It is assumed that the information is transmitted by being incorporated in the packet to which the header information is added, and that information on the transmitted / received packet can be correctly recognized between the wireless receivers 20. Also, a confirmation signal such as reception is transmitted and received, and retransmission is performed if necessary. However, for high-speed transmission, this transfer is performed instantaneously.
[0046]
Here, with reference to FIG. 5, information regarding a packet transmitted / received (shared) between the wireless receivers 20 will be specifically described. FIG. 5 is a configuration diagram showing the contents of a program reconstruction table, which is information for reconstructing a packet.
[0047]
As shown in FIG. 5, the program reconfiguration table Tbl specifies at least the identifiers of the TS packets stored and stored, and their combinations, so that all the packets of the TS carrying the program to be viewed are identified and the program can be reconfigured. The order is described.
[0048]
Here, the program name CN, the event identifier Eid (may be a TS identifier or a program number), the event information Einf (information on the program, related information, and the like) and the billing information Minf are described, and the viewing time (start time ST and (End time ET), the number of combinations of TS packets to which identifiers are assigned (number of packets N), serial numbers of the TS packets (# 1 to #N), and relative times (0:00 to XX) of the TS packets from the start of the program. : XX), the TS packet identifiers ('AA' to 'ZZ') and the like and the order of the TS packets are described to form the program reconfiguration table Tbl. The identifier of the TS packet corresponds to the identifier in the TS packet storage format described with reference to FIG.
[0049]
Here, with reference to FIG. 6, the stage at which the program reconstruction table Tbl is provided or created will be described. FIG. 6 is a diagram showing a case where a program reconstruction table is provided or created in a table format.
[0050]
As shown in FIG. 6, when the program providing side such as a broadcasting station prepares the program reconstructing table Tbl (FIG. 5) in advance (EX1), it is created on the wireless receiver side based on information transmitted together with the program. (EX2).
When the program provider prepares the program in advance (EX1), the broadcast station repeatedly transmits it as a TS packet in advance as a means for providing the program reconfiguration table Tbl (C1) or transmits it in advance through another network. There are means such as (C2).
[0051]
When the radio receiver creates the program based on the information transmitted together with the program (EX2), each identification such as an electronic program guide (EPG), header information of the TS packet (serial number of the packet, etc.), a program identifier, etc. All packets of a program watched by the wireless receiver 20 (FIG. 1) can be specified by estimating based on an identification signal added to a received signal (TS) such as a signal, billing information, and program arrangement information (time information and the like). (Create) as follows. Note that the electronic program guide (EPG) may be obtained from another network.
[0052]
It should be noted that the program reconfiguration table Tbl is appropriately modified so that information is transmitted and received between the wireless receivers 20 (20a, 20b, 20c) in FIG. Updated).
Returning to FIG. 1, the description will be continued.
[0053]
The control unit 24 controls the entire radio receiver 20, and allocates a signal to be received by the signal reception unit 21 and distributes a packet requested by another radio receiver 20b or 20c. In other words, packets that are insufficient for viewing programs on the wireless receiver 20a (missing packets) are collected from the other wireless receivers 20b or 20c. Here, the control unit 24 includes a signal allocating unit 24a, a signal distribution unit 24b, and a signal collecting unit 24c.
[0054]
The signal allocating unit (signal allocating unit) 24a communicates viewing information of another wireless receiver 20b or 20c via the communication unit 23, and determines an information signal to be received by the second signal receiving unit 21b. . The information signal determined here becomes an information signal (second information signal) for complementing a program being viewed by another wireless receiver 20b or 20c.
[0055]
After forming the network 3, the signal allocating unit 24a receives information indicating which information signal is being received and its accumulated information, position information of the wireless receiver 20, information on the viewing tendency and preference of the viewer, At least one of the wireless receivers 20 (20a, 20b, 20c) existing in the network 3 has received as the original viewing information signal (first information signal) due to the past viewing history and the like. Or an information signal that may be received.
[0056]
Then, the signal allocating unit 24a receives the specified viewing information signal or a radio receiver (for example, 20a) that has received the information signal and a radio signal at a position that is not correlated with the propagation environment of the information signal from the base station 10. If it is recognized that the number of receivers 20 is not present, or that the number of receivers 20 is not sufficient to form a network (complementary network), the information signal for viewing is not received. The reception of the information signal for viewing is allocated to at least one of the second signal receiving units 21b among the wireless receivers 20 located at positions that are not correlated with. Regarding the presence or absence of the correlation in the propagation environment, the position of the wireless receiver 20 is detected by, for example, a GPS (not shown), and the propagation environment is estimated based on the position information.
[0057]
The signal allocation in the signal allocation unit 24a is determined by a specific wireless receiver (master station: for example, 20a) among a plurality of wireless receivers 20 connected to the network 3. That is, the signal allocation unit 24a of the specific wireless receiver (for example, 20a) acquires the viewing information of the other wireless receivers (20b and 20c), and obtains the second signal of the other wireless receiver (20b and 20c). An information signal to be received by the receiving means (inside of 20b and 20c) is determined.
[0058]
In the case where the network 3 is fixed and there is a wireless receiver 20 that is always turned on, the specific wireless receiver 20 may be set in advance as a master station. Alternatively, when the network 3 is variable, the wireless receiver 20 having a long power-on time may be set as the master station.
[0059]
The signal distribution unit (signal distribution unit) 24b reads the packet requested by the other wireless receiver 20b or 20c from the storage unit 22 (22a or 22b), and reads the other requested wireless receiver 20b or 20c. To be delivered to Thus, the viewer of the other wireless receiver 20b or 20c can view the program without any omission.
[0060]
The signal collecting unit (signal collecting unit) 24c converts a packet (missing packet) deficient in the information signal being viewed by the viewer via the first signal receiving unit 21a into another wireless receiver that owns the missing packet. 20b or 20c. It should be noted that which wireless receiver 20 has the missing packet is determined by the program reconfiguration table (FIG. 5) relating to the information signal shared by the network 3 and its ownership status, and the viewing of each wireless receiver 20. The search can be performed by referring to / tuning information, packet storage information, and the like.
[0061]
The signal processing unit 25 collects the information signal (first information signal) stored in the storage unit 22a and viewed by the viewer by the signal collection unit 24c based on the missing packet stored in the storage unit 22b. And restores the data to viewing data. As a result, when the information signal distributed from the base station 10 is received, the reception condition of the radio wave is unstable, and the information signal stored in the storage unit 22a is incomplete due to the single reception. Also, by complementing with the missing packet collected by the signal collecting unit 24c, the viewer can view the program without any omission.
[0062]
The configuration of the wireless receiver 20 according to the present invention has been described above, but the present invention is not limited to this. For example, by providing a plurality of second signal receiving units 21b, it is possible to increase the amount of information for complementation.
[0063]
In the wireless receiver 20, each unit can be realized as a function program in a computer, and each function program can be combined and operated as a wireless reception program.
[0064]
[Operation of broadcast service distribution system]
Next, an operation of the broadcast service distribution system 1 including the wireless receiver 20 will be described with reference to FIGS. FIG. 2 is a flowchart showing an operation of mainly forming the network 3 and receiving an information signal for complementation (a second information signal). FIG. 3 is a flowchart mainly showing an operation of viewing an information signal for viewing (first information signal).
[0065]
With reference to FIG. 2, an operation (information signal collecting process) of forming the network 3 and receiving a complementary information signal will be described.
First, the wireless receiver 20a searches for other wireless receivers 20b and 20c that can form a nearby (wireless) network 3 when the power is turned on or when the wireless receiver 20a moves through the network (NW) 3. (Step S10). Subsequently, the wireless receiver 20a requests the detected wireless receiver (for example, 20b) to connect to the ad hoc network, and upon completion of the connection, the network 3 to which the wireless receiver 20b belongs and the network 3 The master station is recognized by receiving a notification from the master station (for example, the wireless receiver 20c) (step S11).
[0066]
Then, the wireless receiver 20a that has recognized the master station communicates with the wireless receiver 20c as the master station, requests participation in the network (wireless receiver NW) 3 between the wireless receivers, and obtains consent. The network (wireless receiver NW) 3 is formed (step S12).
[0067]
In the formation of the network 3 of the wireless receivers 20 (20a, 20b, 20c), the one that has the longest power-on time and the longest connection time to the network 3 is the master station. When the master station leaves the network or turns off the power, it is assumed that a wireless receiver having a longer power-on time and a longer network connection time becomes the master station.
[0068]
Then, the wireless receiver 20a notifies the master station (the wireless receiver 20c) of the received information in the first signal receiving unit 21a, the accumulated information of the information signal in the storage unit 22, and the position information of the wireless receiver 20a. Then, each information of the other wireless receivers 20 (20b) including the master station is obtained (information exchange [viewing information collecting step]: step S13). Note that this information exchange is performed every time a program received by the wireless receiver 20 configuring the network 3 is changed, including the wireless receiver 20a itself, or whenever the wireless receiver 20 configuring the network 3 is changed, Furthermore, it is carried out every time the master station regularly checks.
[0069]
After exchanging the received information, the stored information, and the position information in step S13, the wireless receiver 20a receives the information of each of the other received wireless receivers 20b or 20c and the information of each of the wireless receiver 20a itself (each of the information). The first signal is considered in consideration of the audience rating of the program, the path of wireless propagation with each wireless receiver, and the like, and the propagation environment from the base station 10 (e.g., whether or not there is no correlation with the reception of radio waves). The receiving unit 21a recognizes the wireless receiver 20b or 20c receiving the program received. Alternatively, the wireless receiver 20a requests the master station (the wireless receiver 20c) to receive the program A received by the first signal receiving unit 21a (requests the transfer of the request to any one of the wireless receivers on the network 3). Do).
[0070]
As a result, the radio receiver 20a allocates, for example, the program B received by the radio receiver 20c as the program received by the second signal receiving unit 21b (signal allocation step: step S14), and stores the program B in the storage unit 22b. The storage (storage) is started (signal storage step: step S15). In this way, the wireless receiver 20a determines the wireless receiver 20b or 20c, or both, to be the partner of its own (complementary) network 3.
[0071]
Further, the master station (wireless receiver 20c) monitors the viewing information (step S16), and when there is a change in the network 3, a change in the received program, and the like, returns to step S13 and repeats the above operation.
[0072]
Next, with reference to FIG. 3, an operation of the wireless receiver 20a for viewing the information signal for viewing (viewing process) will be described. This operation is performed in parallel after the formation of the network 3 in FIG. 2 (step 12).
[0073]
First, the wireless receiver 20a selects a program to be received by the first signal receiving unit 21a (Step S20). This is performed by the viewer switching a program using a remote controller (not shown) or the like. Then, the wireless receiver 20a authenticates whether or not the viewer can view the program based on billing information or the like, and accumulates (stores) the selected program (information signal) in the storage unit 22a. When receiving the real-time broadcast, the wireless receiver 20a starts viewing after a certain delay time (for example, a buffer time for processing by the network 3) (step S21).
[0074]
Then, it is determined whether or not a failure has occurred in reception due to shielding, multipath, or the like (step S22). If a failure has occurred (Yes), another wireless receiver, for example, the wireless receiver 20b is connected to the complementary network. If it is the other party, it requests the wireless receiver 20b to transfer the missing packet (information signal) (step S23), and receives the necessary packet (information signal) (collection complementing step: step S24). Then, the process returns to step 21 to store the received information signal.
[0075]
In this case, when the wireless receiver 20b is closer to the master wireless receiver 20c, the router or the access point, and directly exchanges information with the wireless receiver 20a in the ad hoc mode (connection of the ad hoc network). There is also. If the wireless receiver 20d (not shown) is closer to the wireless receiver 20a, and the wireless receiver 20b is closer to the wireless receiver 20c or the router or the access point, which is the master station, the wireless receiver 20a However, it is also possible to directly exchange information with the wireless receiver 20b in an ad hoc mode via a wireless receiver 20d (not shown).
[0076]
Note that the determination of the reception failure in step S22, that is, the recognition of the shortage of the received packet, is performed when the received power of the broadcast wave transmitted from the base station 10 is equal to or more than a specified value when the TS packet is transmitted. The error is determined based on the error correction parity code, the reconfiguration information of the TS packet is compared with the received TS packet, and the continuity index of the TS packet is omitted.
[0077]
On the other hand, if no trouble has occurred in the reception (No in step S22), the viewing and the accumulation are continued (step S25). Then, the wireless receiver 20a determines the end of the program and the viewer's intention, for example, the viewer switches the program using a remote controller or the like, thereby determining the end of the program (step S26). Is completed (Yes), it is determined whether or not reception is continued by watching another program (Step S27). If the reception is continued (Yes), the process returns to Step S20 to select an information signal. If the operation is not continued (No), the operation is terminated (power is turned off). By turning off the power, both the information signal collecting process (FIG. 2) and the viewing process (FIG. 3) are completed. On the other hand, if program viewing is to be continued (No in step 26), the process returns to step S21 to continue storing and viewing information signals.
[0078]
The operation of the broadcast service distribution system 1 including the wireless receiver 20 has been described above, but the present operation is not limited to this. For example, here, information exchange of missing packets is performed between the wireless receivers 20 as appropriate. However, when the real-timeness of a program to be viewed is low, or when the line is extremely unstable, many packets may be received. If this is not possible, the relevant packets may be collected once in one wireless receiver 20 (for example, 20a) and transferred at a certain stage. For example, when a program having a low real-time property is a program C, packets are concentrated on the wireless receiver located at the shortest position from all the wireless receivers among the wireless receivers receiving the program C. In this case, the wireless receivers may be connected in the ad hoc mode without the intervention of the master station.
[0079]
Next, an application example of a receiving form (complementary network) of a broadcast service distribution system for providing and receiving a broadcast service according to the present invention will be described with reference to FIGS. FIG. 7 is a configuration diagram illustrating an example in which the complementary network is configured by a plurality of vehicles. FIG. 8 is a configuration diagram illustrating an example in which a complementary network is configured by a plurality of mobile terminals. FIG. 9 is a configuration diagram illustrating an example in which a complementary network is configured by a combination of a building and a moving object (automobile).
[0080]
[Application example 1]
First, an example in which a complementary network is composed of a plurality of vehicles (vehicles) will be described with reference to FIG. In a future intelligent transportation system, for example, it has been studied to form a certain vehicle group by controlling the traveling of a plurality of automobiles running on an expressway so that the automobiles can safely and smoothly travel. Since a vehicle in such an environment has stable vehicle-to-vehicle speed and vehicle speed, a high-speed network by vehicle-to-vehicle communication can be configured safely. Therefore, in a state where the line accompanying the movement is unstable, the satellite broadcast or the terrestrial broadcast is received by the radio receiver mounted on the automobile, and the desired information signal can be always received by the above-described procedure.
[0081]
Here, three automobiles are running in a row. Therefore, if a high-speed complementary network (vehicle group network NWm) is formed by vehicle-to-vehicle communication between the three vehicles, the three vehicles forming the vehicle group network NWm will continue to receive information signals according to the present invention. Becomes possible. Naturally, if the number of vehicles forming the vehicle group is large, the probability of obtaining a desired program is increased.
[0082]
[Application example 2]
Next, an example in which a complementary network is configured by a plurality of mobile terminals will be described with reference to FIG. FIG. 8 shows that while there are a large number of people in a square or the like, there are a plurality of viewers who have portable terminals T incorporating the radio receiver according to the present invention, and constitute a (complementary) network NWt by the portable terminals T. ing. In this case, the behaviors of the viewers are different from each other, so that the group forming the network NWt becomes fluid, and the combination of the wireless receivers in the portable terminal T forming the group changes with time.
[0083]
[Application example 3]
Next, an example in which the complementary network is configured by a combination of a building and a moving object (automobile) will be described with reference to FIG. Here, it is assumed that terrestrial broadcasting or satellite broadcasting is being received while moving at home (building) or automobile. In this case, a building-to-building network NW ₁ , Building and mobile network NW ₂ , Or mobile and mobile network NW ₃ , To form a network between receivers. Here, when a broadcast is received by a wireless receiver in a home (building), the wireless receiver can always be turned on, so that the wireless receiver is a server-type wireless receiver that receives many information signals. Can be a receiver. Therefore, if there is a combination of a building and a moving object, it is possible to more effectively watch the target information signal.
[0084]
【The invention's effect】
As described above, the wireless receiving method, the wireless receiver, and the wireless receiving program according to the present invention have the following excellent effects.
[0085]
According to the present invention, a plurality of wireless receivers using communication of broadcast and broadcast services form a stable high-speed network among the wireless receivers, and a program that each wireless receiver listens to and listens to. Since the (information signal) can be shared, the viewer can acquire the information signal from another wireless receiver having a good reception condition and view the program comfortably even in an environment where the reception condition of the radio is deteriorated. The probability of being able to do so can be increased.
[0086]
According to the present invention, the second signal receiving means for receiving the information signal is used to store the information signal received or received by another wireless receiver as a complementary information signal. , Even if the program has a low audience rating, the probability of comfortably viewing the program can be increased.
As a result, the present invention contributes to the realization of ubiquitous program viewing by allowing a viewer to view a desired program anytime and anywhere in a broadcast service of communication and broadcasting without being affected by the radio reception condition. can do.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram showing a configuration of a broadcast service distribution system including a wireless receiver according to an embodiment of the present invention.
FIG. 2 is a flowchart showing an operation in which the wireless receiver according to the embodiment of the present invention forms a network and receives an information signal for complementation.
FIG. 3 is a flowchart showing an operation of the wireless receiver according to the embodiment of the present invention for viewing an information signal for viewing.
FIG. 4 is a data structure diagram showing an example of a storage format for storing TS packets in the wireless receiver according to the embodiment of the present invention.
FIG. 5 is a configuration diagram showing contents of a program reconfiguration table, which is information for reconfiguring a packet, used by the wireless receiver according to the embodiment of the present invention.
FIG. 6 is a diagram showing, in a table form, an example in which a program reconfiguration table is provided or created in the wireless receiver according to the embodiment of the present invention.
FIG. 7 is a configuration diagram showing an example in which a complementary network is composed of a plurality of automobiles in the present invention.
FIG. 8 is a configuration diagram illustrating an example in which a complementary network is configured by a plurality of mobile terminals in the present invention.
FIG. 9 is a configuration diagram showing an example in which a complementary network is configured by a combination of a building and a moving object (automobile) in the present invention.
FIG. 10 is a system configuration diagram showing a configuration of a conventional system including a receiver for receiving a broadcast service.
[Explanation of symbols]
1. Broadcast service distribution system
3. Network (LAN)
10… Base stations
20 (20a, 20b, 20c) ... wireless receiver
21 (21a, 21b) ... signal receiving means (first signal receiving means, second signal receiving means)
22 (22a, 22b) ... storage means
23 ... Communication means
24 ... Control means
24a... Signal allocation unit (signal allocation means)
24b ... signal distribution unit (signal distribution means)
24c ... signal collecting unit (signal collecting means)
25 ... signal processing means

Claims (4)

A plurality of wireless receivers provided with a plurality of signal receiving means, a plurality of information signals wirelessly transmitted in packet units from the base station, a wireless receiving method of complementarily receiving,
A network is formed by the plurality of wireless receivers, the information signal packets received by the plurality of signal receiving units are shared, and packets that cannot be received by a predetermined wireless receiver are transmitted from other wireless receivers. A wireless reception method, wherein the information signal is complemented by acquiring the information signal. Among a plurality of information signals wirelessly transmitted from the base station in packet units, first signal receiving means for receiving a first information signal, and at least one set of first signal receiving means for receiving at least one set of second information signals A wireless receiving method for complementarily receiving an information signal transmitted from the base station by connecting a plurality of wireless receivers provided with two signal receiving means via a network,
A viewing information collecting step in which each of the wireless receivers collects viewing information received or received by the first signal receiving means and the second signal receiving means via the network;
A signal assigning step in which each of the wireless receivers assigns the second information signal received by the second signal receiving means based on the viewing information collected in the viewing information collecting step;
Each of the wireless receivers may convert the first information signal and the second information signal together with management information that is information for reconstructing packets of the first information signal and the second information signal. A signal storage step for storing;
Collection complementation in which each of the wireless receivers collects and supplements, via the network, a missing packet that is insufficient for viewing the first information signal from another wireless receiver that stores the missing packet. Steps and
A wireless receiving method comprising: A wireless receiver that complements and receives an information signal wirelessly transmitted from the base station in packet units with another wireless receiver connected via a network,
A communication unit configured to communicate with the other wireless receiver by configuring the network;
First signal receiving means for receiving the selected first information signal;
Via the network, acquiring the viewing information of the other wireless receiver, based on the viewing information, signal allocation means for allocating at least one set of second information signal,
One or more second signal receiving means for receiving the second information signal allocated by the signal allocating means,
The first information signal received by the first signal receiving means and the second information signal received by the second signal receiving means are re-packaged with the packets of the first information signal and the second information signal. Storage means for storing together with management information which is information for configuring;
A signal distribution unit that reads a packet requested by the other wireless receiver from the storage unit and transmits the packet to the other wireless receiver,
A signal collection unit that collects a shortage packet that is insufficient for viewing the first information signal from another wireless receiver via the network and stores the packet in the storage unit;
A signal processing unit that recovers the first information signal stored in the storage unit into viewing data based on the missing packets stored in the signal collection unit and stored in the storage unit;
A wireless receiver comprising: A computer mounted on the wireless receiver, in order to complement the information signal wirelessly transmitted in packet units from the base station with another wireless receiver connected via a network and receive the information signal,
A communication unit configured to communicate with the other wireless receiver by configuring the network;
First signal receiving means for receiving the selected first information signal,
Signal allocation means for obtaining, via the network, viewing information of the other wireless receiver, and allocating at least one set of second information signals based on the viewing information;
One or more second signal receiving means for receiving the second information signal allocated by the signal allocating means,
The first information signal received by the first signal receiving means and the second information signal received by the second signal receiving means are re-packaged with the packets of the first information signal and the second information signal. From the storage means stored together with management information which is information for configuring, read out a packet requested from the other wireless receiver, signal distribution means to transmit to the other wireless receiver,
A signal collection unit that collects a shortage packet that is insufficient for viewing the first information signal from another wireless receiver via the network and stores the packet in the storage unit;
A signal processing unit for collecting the first information signal stored in the storage unit, and restoring the first information signal into viewing data based on the shortage packet stored in the signal collection unit;
A wireless reception program characterized by functioning as:

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