JP2945670B2 - Broadcast receiver - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a broadcast receiver having a function of updating control software.

More specifically, the present invention relates to a control software update method for a broadcast receiver, the operation of which is controlled by software of a microcomputer. A control software update method for a scramble decoder that performs information processing such as descrambling key generation, and performs some kind of signal processing on the digital coded video signal, audio signal, or data signal using the intelligent function of the microcomputer on the receiving side. And a control software update method for a broadcast receiver for reproducing a program signal which can be viewed or used.

[Summary of the Invention] The present invention receives a broadcast program signal, subjects the signal to video processing, audio processing or data processing controlled by an intelligent function of a microcomputer, and obtains a broadcast or broadcast usable program signal. This is related to the method of updating the receiver control software that determines the receiving algorithm in the device, to check the contents of the new control software and the data for checking whether the contents are correct, and to start the new control software By sending the data to the receiver using a digital signal transmission path, the receiving algorithm of the broadcasting receiver can be easily and reliably updated even after the system operation starts, and various developments in the broadcasting business will require replacement of the receiver itself, It can be done without any modification.

2. Description of the Related Art As a decoder control method for a broadcast receiver in which main functions are determined by software of a microcomputer, for example, Japanese Patent Application Laid-Open No.
As shown in the official gazette (control information transmission method),
The "decoder" operates according to a certain fixed algorithm, and the "basic software" that defines the information processing method of the "decoder" is not changed. Therefore, the update of the decoder algorithm itself at the time when the decoder becomes widespread after system operation starts. Has not been considered at all.

Such a conventional technique will be described by taking scramble broadcasting as an example.

A receiver for scrambled broadcasting is generally divided into two parts, a descrambler for restoring video and audio, and a decoder for processing related information. This related information
This information is necessary for restoring the program signal on the receiving side, and includes common related information multiplexed with broadcast waves and transmitted in real time, and individual related information previously delivered to each subscriber.

The decoder first receives the common information multiplexed and transmitted on the broadcast wave, and decrypts the encryption with the key information included in the individual information to obtain the plaintext common information. Next, the information indicating the program attribute included in the common information is compared with the information indicating the contract content included in the individual information, and whether or not the subscriber can view the program according to a predetermined rule is determined. If the contract content of the subscriber satisfies the viewing conditions of the program, key information for restoring video and audio is extracted from the common information and transferred to the descrambler.

A conventional related information transmission / processing system and decoder control system in such a scrambled broadcast is described in detail in, for example, Japanese Patent Application Laid-Open No. Sho 60-134643 (control information transmission system). This basic configuration is as shown in FIG. In the figure, T1 to T8 represent each block on the transmission side, and R1 to R9 represent each block on the reception side.

Related information processing by the decoder of the scrambled broadcast receiver is mostly performed by software. The basic software of the decoder determines the encryption method, viewing condition determination method, charge setting method, and the like, and determines the security against unauthorized decryption of the code, the operation mode of the pay broadcast service, and the like.

Changing or updating this basic software after the decoder has been delivered to the subscriber has never been considered before. That is, once the operation of a certain pay broadcast service system has started, it has been almost impossible to change the encryption method, viewing condition determination method, charge setting method, and the like.

[Problems to be Solved by the Invention] In order to cope with such a conventional technique, Japanese Patent Application No. 62-205191 filed by the present applicant discloses common related information on an encrypted program, encrypted charging method and contract contents. With regard to the scramble broadcasting system that enables viewing by judging the viewing conditions of the subscriber by comparing the subscriber's individual information such as, etc., the viewing condition determination method and the encryption method can be changed at any time as necessary, and Basic software information necessary for decoding on the part of the user is transmitted via a broadcast wave transmission line or an IC card (not disclosed at the time of filing this patent application).

Japanese Patent Application No. 62-205191 discloses a control software update method for a broadcast receiver whose main functions are determined by software of a microcomputer.
There is a receiver control software update method disclosed in “Decoder control method”. This system is achieved by the block configuration shown in FIG.
It has two types of non-volatile memories, a first memory for storing new control software and a second memory for storing current control software. (A) Receiver control software which is newer than the current one When switching to the second memory, a means for transferring the basic software in the first memory to the second memory is provided.

(B) Further, the memory address of the first memory area for storing new control software and the memory address of the second memory area for storing the current control software are fixed.

(C) Also, inspect the contents of the new control software,
The program for transferring / starting the program itself is fixed, and no consideration has been given to updating the test / transfer / start program itself.

However, in the above-described method (A), when switching the receiver control software from the current one to the new one,
The new control software in the first memory is checked for errors. If there is no error, the new control software is transferred from the first memory to the second memory, and the control software in the second memory is activated. Was. Therefore, there is a disadvantage that extra time is required for the transfer at the time of activation, and that an error caused by any cause during the transfer is not detected.

In the above method (B), since the memory addresses of the first memory area for storing new control software and the second memory area for storing current control software are fixed, The length of the software is limited by the size of each memory area, and at the same time, three or more types of control software cannot be stored in the receiver.

Further, in the above-mentioned method (C), the program for inspecting the contents of the new control software and transferring / starting the program is fixed. Could not respond.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a broadcast receiver that solves the above-mentioned drawbacks of the conventional system and enables a new control software update.

[Means for Solving the Problems] In order to achieve the above object, the present invention provides a program signal processing unit for receiving a broadcast program signal and performing predetermined signal processing on the signal, and a receiver control software. And a decoder section for controlling the operation of the program signal processing section according to the following. In the broadcast receiver, a program for dividing the content of the new receiver control software into an appropriate length through a one-way digital signal transmission path. Data, an address at which the data is stored in the receiver memory, a set of first data signals including a check bit for checking whether or not the content of the received set of data is error-free; A start address for starting the new control software and a second data block including a check bit for checking whether or not the content of the received data block is correct. Data signal is repeatedly transmitted to the broadcast receiver for each block, a non-volatile memory for storing receiver control software, and the first data signal or Means for checking whether or not there is an error in the contents of the set of data by using a check bit when the second data signal of the set is received; Means for discarding the group of data and continuing to receive the group of first data signals or the group of second data signals; and, if there is no error in the inspection, the group of first data signals. Means for storing the received program data at a memory address indicated by the address data in the data signal; and, if there is no error in the check, the second set of data Means for starting new receiver control software from the memory address indicated by the start address data in the data signal when the receiver signal is received, updating the receiver control software, and It can be changed.

In the above-mentioned present invention, in order to check whether all or a part of the new receiver control software stored in the non-volatile memory of the receiver via the one-way digital signal transmission path is free from errors. The program check bit and the data indicating the address range of the non-volatile memory to be checked are used to determine whether or not there is an error in the start address for starting new control software and the content of the received data block. When the set of second data signals is repeatedly transmitted to the broadcast receiver using the set of second data signals together with check bits for checking, the set of second data signals is received. In some cases, the received block uses a check bit for checking the content of the second data signal to determine whether there is no error in the content of the second data signal of the block. Means for performing a test, if the result error testing, discard the second data signal of the one mass,
Means for continuing to receive the second data signal of the set, and determining whether there is no error in the contents of the program data stored in the address range designated in the second data signal, Means for checking using the program check bit, and means for starting new receiver control software from the address indicated by the start address data in the data signal if there is no error in the check by the program check bit. It can be configured.

Further, by replacing the software to be inspected with new software, it is also possible to adopt a configuration including means for updating the algorithm itself for inspecting whether or not there is an error in the whole or a part of the new control software.

Example Next, an example of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram of a receiver showing a first embodiment to which the present invention is applied, in which a satellite broadcast data channel is used to send a new version of receiver control software to the receiver. The receiver according to the first embodiment includes an A / D converter 1 for converting an analog program signal into a digital signal, and a program signal receiving memory 2 for storing the received program signal.
A program signal processing unit 3 for performing some signal processing determined by the contents of the control software on the received program signal to make the program signal viewable or usable; and a program signal output memory 4 for temporarily storing the output program signal. A D / A converter 5 for obtaining an analog program signal, a packet separation unit 6 for extracting necessary packets from a satellite broadcast data channel, and an error correction unit 7 for correcting an error occurring on a transmission path. A receiver control software packet identification unit 8 for identifying a packet for updating the receiver control software; an encryption / decryption unit 9; a packet identification unit 10 for distinguishing a program data packet from a start-up packet (described later); Check the contents of the receiver control software 12, the working receiver control software 13, and the new receiver control software. A nonvolatile memory 11 for storing the test-activation software 14 to start if there, and a central processing unit 15 of the microcomputer.

The portion below the broken line AA 'in FIG. 1 is a decoder unit for controlling the operation of the program signal processing unit in accordance with the contents of the receiver control software.

In the first embodiment, the data packet sent using the satellite broadcast data channel is, as shown in FIG.
It comprises a program data packet 16 for sending the contents of the new control software, and a start packet 17 for checking and starting the contents of the new software. The program data packet 16 has a packet identification bit 18 indicating that it is a control software update packet, a packet type bit 19 for distinguishing a data packet from a start packet, and a new control software divided into a certain length. Program data 21 and program data 21
Data 20 indicating the address of the memory where
And a packet check bit 22 for checking whether there is an error in the contents of the received packet data.

The start packet 17 includes, in addition to the packet identification bit 18, the packet type bit 19, and the packet check bit 22, a whole program check 26 for checking whether there is any error in the whole or a part of the new control software to be started from now on. A test start address 24 and a test end address for specifying a range of addresses to be tested, and a start address 23 for starting new control software.
And In addition, portions of the program data packet and the start packet after “type 19” are encrypted as necessary.

Next, a procedure for updating the receiver control software according to the first embodiment of the present invention will be described with reference to FIGS.

Transmission of new receiver control software (1) The software to be transmitted is divided by an appropriate length, and the memory address to be stored on the receiving side and the packet check bit for checking whether there is any error in the contents of the packet data are determined. In addition, it is multiplexed with a broadcast wave using a satellite broadcast data channel and transmitted in the form of a program data packet shown in FIG. 2 (a).

(2) To ensure reception of the program data packet at the receiver, the program data packet
Repeat the same thing several times.

(3) On the receiving side, after packet separation, error correction, encryption / decryption, etc., the packet inspection bits are used to inspect the contents of the packet data for errors. The packet check bits need to be dependent on all the bits of the packet data, and an encryption authenticator or the like can be used.

(4) If the test result is good (OK), write the program data 21 to the address indicated by the address 20 in the nonvolatile memory 11 of the receiver.

(5) If there is an error in the inspection, the program data packet is discarded, and reception of the program data packet is continued.

Activation of the new receiver control software (1) All program check bits 26 for checking the whole or part of the new control software for errors, check start address 24 and check end address 25 indicating the check address range, new A start packet 23 is created by adding the same identification 18, type 19, and packet check bit 22 as a program data packet to a start address 23 indicating an address at which control software is started, and the start packet 17 is multiplexed into a broadcast wave using a satellite broadcast data channel. And transmit.

(2) In order to ensure the reception of the start packet at the receiver, the same start packet is repeatedly transmitted several times.

(3) On the receiving side, after packet separation, error correction, and encryption / decryption, the packet inspection bits are used to inspect the packet data for errors. If there is an error in the check result by the packet check bit, the start packet is discarded, and the reception of the start packet is continued.

(4) If there is no error in the inspection result by the packet inspection bit, the inspection / startup software 14 is started.
The inspection / startup software 14 may be a part of the active receiver control software 13, may be a routine called from the active receiver control software, or may be activated by a dedicated interrupt circuit. Interrupt program.

(5) The test / startup software calculates check bits from the program data stored in the memory area from the test start address 24 to the test end address 25 in the nonvolatile memory 11, and checks all program in the start-up packet 17. Compare bit 26.

(6) If the inspection result in the above item (5) is OK, the inspection / startup software will operate even when the power of the receiver is turned on again.
Also, as a process for starting the new control software, for example, when the program counter starts from address 0 when the power is turned on, an instruction to jump to the new control software is written to address 0, The new receiver control software is started from the start address 23.

(7) The start packet is repeatedly transmitted, like the program data packet.

A function to check the contents of packet data using packet check bits, a function to store program data 21 at the address of the non-volatile memory specified by address 20 when a program data packet is received, and a check when a start packet is received The function of starting the start-up software needs to be included in the working receiver control software or the routine called by it.

Similarly to the transmission of the receiver control software, if the inspection / startup software is transmitted using the program data packet 16, the algorithm itself for inspecting the whole new control software can be updated.

The second and third embodiments of the present invention are obtained when an IC card and a communication line are used instead of the satellite broadcast data channel as digital signal transmission lines for transmitting new receiver control software (FIG. Not shown). Here, the configuration of the receiver, the data packet, the procedure for updating the receiver control software, and the like are exactly the same as in the first embodiment.

Regarding the significance and necessity of easily and surely updating the control software of the broadcast receiver even after the start of system operation, the applicant has filed a Japanese Patent Application No.
-205191 No. "decoder control method"
In this specification, a duplicate description will be omitted.

[Effects of the Invention] By implementing the present invention, the following effects can be obtained.

When starting up the new receiver control software, it is only necessary to transfer control to the start address, and the operation of transferring the control software is not required, so that extra processing time for the transfer can be saved, and at the same time, errors caused by the transfer The receiver does not fall out of operation.

The address of the memory area for storing the new control software and the address of the memory area where the current control software operates can be set arbitrarily as long as the memory areas do not overlap. And three or more receiver tax control software can be stored in the non-volatile memory of the receiver at the same time.

By transmitting a check bit for checking the whole or a part of the new control software for errors, together with data indicating an address range to be checked, using a start-up packet, particularly in the non-volatile memory of the receiver, After checking only necessary areas, the apparatus can be started. Also, a dedicated packet for transmitting the program check bit is not required.

By replacing the inspection / startup software with a new one, the algorithm itself for inspecting all or a part of the new control software can be updated.

Even in a one-way transmission system such as a broadcast, where the success or failure of transmission cannot be confirmed, the transmitting side repeatedly sends out a program data packet and a start packet, and the receiving side does not perform any processing if there is an error in the inspection result. By waiting without waiting for the next packet, the control software can be reliably updated without causing a failure, that is, without causing a runaway of the software.

Since the start address and the program check bit are sent in the same packet, the memory contents do not change due to an error packet or the like between the check and the start, and the correct control software can always be started.

[Brief description of the drawings]

FIG. 1 is a block diagram of a receiver according to a first embodiment of the present invention, in which a new receiver control software transmission and start-up are performed using a satellite broadcast data channel. FIG. transmission,
FIG. 3 is a diagram showing a basic configuration of a scramble broadcasting system known in the related art, and FIG. 4 is a diagram showing a method that requires transfer when starting new control software (the premise of the present invention). FIG. 2 is a block diagram of a broadcast receiver that has been placed. 1 A / D converter, 2 Program signal receiving memory, 3 Program signal processing unit, 4 Program signal output memory, 5 D / A converter, 6 Packet separation unit, 7 ... Error correction unit, 8: Receiver control software packet identification unit, 9: Encryption / decryption unit, 10: Packet type determination unit, 11: Non-volatile memory, 15: CPU.

────────────────────────────────────────────────── (5) Continuation of the front page (51) Int.Cl. ⁶ identification symbol FI H04L 29/08 G06F 9/06 420J 420T (56) References (JP, A) JP-A-60-183842 (JP, A) JP-A-60-32449 (JP, A) JP-A-55-162139 (JP, A) JP-A-59-117628 (JP, A) 56-46165 (JP, B2) (58) Fields investigated (Int. Cl. ⁶ , DB name) H04H 1/00 H04L 9/00 643 G06F 9/06 420 H04L 13/00 305

Claims (3)

(57) [Claims] 1. A program signal processing unit for receiving a broadcast program signal and subjecting the signal to predetermined signal processing, and a decoder unit for controlling the operation of the program signal processing unit in accordance with contents of receiver control software. In a broadcast receiver, program data obtained by dividing the contents of new receiver control software into appropriate lengths via a one-way digital signal transmission path, an address when the data is stored in a memory of the receiver, A first data signal including a check bit for checking whether or not the content of the received data is correct; a start address for starting new control software; and the received data And a set of second data signals including check bits for checking whether there is no error in the contents of the broadcast reception. When transmitted to a transceiver, a non-volatile memory for storing receiver control software, and a check bit is used when the set of first data signals or the set of second data signals is received. Means for checking whether or not there is an error in the content of the set of data; and, if there is an error in the check, discarding the set of data, the first data signal of the set or the Means for continuing to receive the group of second data signals, and a memory indicated by address data in the group of first data signals if no error is detected as a result of the inspection. Means for storing the received program data at the address; if no error is found as a result of the check, when the second data signal of the set is received, an error in the data signal is generated. And means for activating the new receiver control software from the memory address indicated by the address data, and updates the receiver control software, a receiver for a broadcast, characterized in that to be able to change the receiver function. 2. The broadcast receiver according to claim 1, wherein the whole or a part of the new receiver control software stored in a non-volatile memory of the receiver via a one-way digital signal transmission path. A program check bit for checking whether there is no error in the data, a data indicating an address range of the nonvolatile memory to be checked, and a start address for starting new control software, Using the set of second data signals together with check bits for checking whether there is no error in the contents of the data, and transmitting the set to the broadcast receiver repeatedly for each set. When the set of second data signals is received, the second set of the set of data is received using check bits for checking the contents of the received set of second data signals. Means for checking whether or not there is an error in the contents of the data signal; and, if there is an error in the check, discarding the set of second data signals and continuing to receive the set of second data signals. Means for checking whether there is an error in the contents of the program data stored in the address range specified in the second data signal using a program check bit in the data signal; Means for starting new receiver control software from the address indicated by the start address data in the data signal if there is no error as a result of the check by the program check bit. 3. An algorithm for checking whether or not there is an error in the whole or a part of new control software by replacing the software to be checked with new software in the broadcast receiver according to claim 1 or 2. A broadcast receiver comprising means for updating itself.