JPH01220925A - Control software updating system - Google Patents

Abstract

PURPOSE:To update the reception algorithm of a broadcast receiver even after the start of the system operation by sending data to check the content of new control software and whether or not the content is in error and data to start the new control software to a receiver through a digital signal transmission line. CONSTITUTION:Thus, an entire program check bit 26 to check whether or not the entire new control software or part of the content has an error, a check start address 24 representing the range of a check address, a check end address 25, a start address 23 representing an address to start a new control software are added with an identification bit 18, a type bit 19 and a packet check bit 22 similarly to a program data packet, a start packet 17 is formed and a satellite broadcast data channel is used and sent while being multiplexed with the broadcast wave. Thus, the new receiver control software is started from the memory address, and, the receiver control software is easily revised to change the function of the receiver.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a control software update method for a broadcasting receiver whose operation is controlled by microcomputer software, and in particular, scramble-related information on the receiving side of scrambled broadcasting. A control software update method for a scramble decoder that performs information processing such as decoding, viewing condition determination, and descrambling key generation, and an intelligent function of a microcomputer on the receiving side for digitally encoded video, audio, or data signals. The present invention relates to a control software update method for a broadcasting receiver that performs some signal processing using the system to reproduce program signals that can be viewed or used.

[Summary of the Invention] The present invention provides a broadcast reception method that receives a broadcast program signal, performs video processing, audio processing, or data processing on the signal controlled by the intelligent function of a microcomputer to obtain a program signal that can be viewed or used. This is related to the update method of the receiver control software that determines the reception algorithm in the machine, and includes the contents of the new control software, data to check whether there are any errors in the contents, and to start the new control software. By sending this data to the receiver using a digital signal transmission path, the reception algorithm of the broadcast receiver can be easily and reliably updated even after the system has started operating. This allows it to be used without any modification.

[Prior art 1] As a decoder control system for a broadcasting receiver whose main functions are determined by microcomputer software,
For example, regarding scrambled broadcasting, JP-A-6O-1341
As indicated in Publication i43 (Control Information Transmission System), ``the decoder operates according to a certain fixed algorithm, and the ``basic software'' that defines the information processing method of the decoder remains unchanged. Until now, no consideration has been given to updating the decoder algorithm itself after the decoder has become widespread.

This conventional technique will be explained by taking scrambled broadcasting as an example.

A scrambled broadcast receiver is generally divided into two parts: a descrambler that restores video and audio, and a decoder that processes related information.

This related information is information necessary for restoring the program signal to its original state on the receiving side, and includes common related information that is multiplexed onto broadcast waves and sent in real time, and individual information that is sent to each subscriber in advance. There is related information.

The decoder first receives common information multiplexed onto broadcast radio waves and decrypts the code using key information included in the individual information to obtain plaintext common information. Next, the information representing the program attributes contained in the common information is compared with the information representing the contract details contained in the individual information, and it is determined whether the subscriber can view the program based on certain established rules. Determine. If the subscriber's contract details satisfy the viewing conditions for the program, the key information for restoring the video and audio is extracted from the common information and transferred to the descrambler.

Conventional related information transmission/processing systems and decoder control systems in such scrambled broadcasting are described in detail in, for example, Japanese Patent Laid-Open No. 134643/1983 (control information transmission system). Its basic configuration is as shown in FIG. In this figure, Tl to T8 represent each block on the transmitting side, and R1 to R9 represent each block on the receiving side.

Most of the related information processing by the decoder of the scrambled broadcast receiver is performed by software. The basic software of this decoder determines the encryption method, viewing condition determination method, fee setting method, etc., and also determines the security against unauthorized decoding, the operational form of the pay broadcast service, etc.

Up until now, it has never been considered to change or update this basic software after the decoder is delivered to the subscriber. That is, once a pay television service system has started operating, it is almost impossible to change the encryption method, viewing condition determination method, fee setting method, etc.

[Problems to be Solved by the Invention] In order to cope with such conventional technology, the present applicant has proposed common related information regarding encrypted programs and encrypted billing methods and contract details. Regarding the scrambled broadcasting system, which compares subscriber individual information such as subscriber information and determines the subscriber's viewing conditions to enable viewing, the viewing condition determination method and encryption method can be changed at any time as necessary. Basic software information necessary for decoding on the user's side is transmitted via a broadcast wave transmission line or an IC card (not disclosed at the time of filing of this patent application).

In addition, as a control software update method for a broadcasting receiver whose main functions are determined by microcomputer software, the receiver control method disclosed in the above-mentioned Japanese Patent Application No. 1983-205191 (unpublished application) ``Decoder Control Method'' There is a software update method. This method is achieved by the block configuration shown in Figure 4, and the broadcast receiver has a first controller for storing new control software.
(A) When switching the receiver control software from the current one to a new one, the basic memory in the first memory is provided. It was supposed to have means for transferring software to the second memory.

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

(C) In addition, the program itself that inspects the contents of new control software, transfers it, and starts it is fixed.
No consideration was given to updating this inspection/transfer/startup program itself.

However, in the above method (A), when switching the receiver control software from the current one to the new one, the contents of the new control software in the first memory are checked for errors, and if there are no errors, the new control software is replaced. The data was transferred from the first memory to the second memory, and the control software in the second memory was activated. Therefore, there are disadvantages in that extra time is required for transfer at startup, and errors that occur for some reason during transfer are not detected.

In addition, in the above method (B), 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, so the control software The length of the receiver 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.

Furthermore, in method (C) above, the program to inspect the contents of new control software and to transfer and start it is fixed, so if it becomes necessary to update the method itself for inspecting the contents of control software, I was unable to respond.

Therefore, an object of the present invention is to provide a new control software update method by solving the drawbacks of the above-mentioned conventional methods.

[Means for Solving the Problems] The control software update method according to the present invention includes a program signal processing section that receives a broadcast program signal and performs predetermined signal processing on the signal, and a program signal processing unit that receives a broadcast program signal and performs predetermined signal processing on the signal, and updates the program according to the contents of receiver control software. In a receiver control software update method for a broadcasting receiver that is equipped with a decoder section that controls the operation of a signal processing section, the transmitting side updates the contents of the new receiver control software with program data divided into appropriate lengths. , a first data signal including an address at which the data is stored in the memory of the receiver, and check bits for checking whether there are any errors in the content of the received data, and a new data signal. A set of second data signals including a startup address for starting the control software and check bits for checking whether there are any errors in the contents of the received set of data are transmitted using a digital signal transmission path. and means for transmitting the information to the receiver, and on the receiving side, a non-volatile memory for storing receiver control software;
Upon receiving the set of first data signals or the set of second data signals, means for inspecting the content of the set of data for errors using check bits; If there is no error as a result, when the first data signal of the batch is received, means for storing the received program data in a memory address indicated by the address data in the data signal, and the result of the inspection; means for activating new receiver control software from a memory address indicated by activation address data in the data signal when the batch of second data signals is received if there is no error; The software has been updated to allow changes to the receiver's functions.

[Operation] In the present invention, the contents of new control software, data for inspecting the contents for errors, and data for activating new control software are received using a digital signal transmission path. By sending the information to the receiver, the reception algorithm of the broadcast receiver can be updated easily and reliably even after the system has started operating, and various developments in the broadcasting business can be carried out without replacing or modifying the receiver itself. .

[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 illustrating a first embodiment of the present invention, which uses a satellite data channel to send new versions of receiver control software to the receiver. The receiver configuration in this first embodiment includes an A/D converter 1 that converts an analog program signal into a digital signal, and a program No. 13 reception memory 2 that stores the received program signal.
, a program signal processing section 3 that performs some kind of 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 program signal to be output. , a D/A converter 5 for obtaining an analog program signal, a packet separation unit 6 for extracting necessary packets from the satellite broadcast data channel, and an error correction unit 7 for correcting errors occurring on the transmission path. , a receiver control software packet identification unit 8 that identifies packets for updating the receiver control software; an encryption/decryption unit 9; a packet identification unit 10 that distinguishes between program data packets and startup packets (described later); Receiver control software 12. Current receiver control software13. Describes the inspection/startup software 14 that inspects the contents of the new receiver control software and starts it if there are no errorsffj
The microcomputer includes a non-volatile memory 11 and a central processing unit 15 of a microcomputer.

Also, the part below the broken line A-A' in FIG.
This is a decoder section that controls the operation of the program signal processing section according to the contents of the HJ control software.

The data packets sent using the satellite data channel in the first embodiment include a program data packet 16 for sending the contents of the new control software and a program data packet 16 for checking the contents of the new control software, as shown in FIG. , and a startup packet 17 for startup.

The program data packet 16 has a packet identification bit 18 indicating that it is a control software update packet.
, the packet type bit 19 that distinguishes between a data packet and a startup packet, program data 21 that divides the new control software into a certain length, and an address that indicates the memory address where the program data 21 is to be stored. The packet check bit 22 includes data 20 and a packet check bit 22 for checking whether there are any errors in the contents of the received packet data.

The startup packet 17 has the above packet identification bit 1B,
Packet type bit 19. In addition to the packet check bit 22, the entire program check bit 2 [i] is used to check whether there are any errors in all or part of the new control software to be started, and the check start bit is used to specify the range of addresses to be checked. It includes an address 24, a test end address 25, and a startup address 23 for starting new control software. Furthermore, the portions of the program data packet and startup packet after "type 19" are encrypted as necessary.

Next, the procedure for updating the receiver control software in the first embodiment of the present invention will be explained with reference to FIGS. 1 and 2.

U1 Tandankasa 7 h '7, z Otsujidenden (1
) Divide the software to be transmitted into sections of appropriate length, add a memory address to be stored on the receiving side, and a packet check bit to check whether there are any errors in the contents of the packet data. ) is multiplexed onto broadcast waves and transmitted using a satellite broadcast data channel in the form of program data packets.

(2) On the receiving side, after packet separation, error correction, decryption, etc., the packet check bit is used to check whether there are any errors in the contents of the packet data. The packet inspection bit needs to be subordinate to all bits of the packet data, and can use a cryptographic authenticator or the like.

(3) If the test result is good (0), program data 21 is written to the address indicated by address 20 in nonvolatile memory 11 of the receiver.

(4) Since the receiver may be in a state where it cannot receive program data packets due to power off, etc., the same program data packets are repeatedly transmitted several times.

Communicate to the new control software and start the control software (1) All program check bit 26 for checking whether there are any errors in the entire or part of the new control software. A test start address 24 and a test end address 25 indicating a test address range. Startup address 23 indicating the address at which to start the new control software
The same identification ia as the program data packet and type 19. A packet inspection bit 22 is added to form a startup packet 17, which is multiplexed onto broadcast waves and transmitted using a satellite broadcast data channel.

(2) On the receiving side, when the activation packet is received, the inspection/activation software 14
Start. This inspection/activation software 14 may be part of the current receiver control software 13, may be a routine called from the current receiver control software, or may be activated by a dedicated interrupt circuit. It may also be an interrupt program.

(3) Inspection/startup software is non-volatile memory 1.
1, check bits are calculated from the program data stored in the memory area from the check start address 24 to the check end address 25, and compared with all program check bits 26 in the startup packet 17.

(4) If the test result in item (3) above is 0, the test
The startup software is a process to ensure that the new control software is started even when the power to the receiver is turned on again. For example, if the program counter starts from address 0 when the power is turned on, ,
After writing a command to jump to the new control software at address O, the new receiver control software is started from starting address 23.

(6) The activation packet, like the program data packet, is sent repeatedly.

A function to inspect the contents of packet data using packet inspection bits, a function to store program data 21 at the non-volatile memory address specified by address 20 when a program data packet is received, and an inspection when a startup packet is received. - The function to start the startup software must be included in the current receiver control software or in a routine called by it.

In addition, as well as transmitting receiver control software, inspection and
If the activation software is also transmitted using the program data packet 16, it is possible to update the algorithm itself for testing the entire new control software.

The second and third embodiments of the present invention are obtained when an IC card and a communication line, respectively, are used instead of a satellite broadcast data channel as a digital signal transmission path for transmitting new receiver control software (Fig. (not shown). Here, the receiver, data packet configuration, receiver control software update procedure, etc. are completely the same as in the first embodiment.

Furthermore, regarding the significance and necessity of being able to easily and reliably update the control software for broadcast receivers even after the system has started operating, please refer to the applicant's patent application filed in 1983.
Since it is described in detail in No. 205'191 "Decoder Control Method", repeated explanation will be omitted in this specification.

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

■When starting a new receiver control software, all you have to do is transfer control to the startup address, and there is no need to transfer the control software, so you can save extra processing time for transfer, and at the same time avoid errors that occur during transfer. There is no possibility that the receiver will become unstable due to this.

■The address of the memory area for storing 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, so there are no restrictions on the length of the control software. system, and it is possible to store three or more pieces of receiver control software simultaneously in the non-volatile memory of the receiver.

■Inspection bits for inspecting the contents of all or part of new control software for errors are stored in the receiver's non-volatile memory by transmitting them using a startup packet along with data indicating the address range to be inspected. It can be activated after inspecting only the particularly necessary areas. Further, there is no need for a dedicated packet for transmitting program check bits.

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

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a receiver according to a first embodiment of the present invention, in which new receiver control software is transmitted and activated using a satellite broadcast data channel. FIG. software transmission,
A configuration diagram of a startup packet. Figure 3 is a basic configuration diagram of a conventionally known scrannoble broadcasting system. Figure 4 shows a system using a method that requires transfer when starting up new control software (the premise of the present invention). FIG. 2 is a block diagram of a broadcast receiver. 1... To/D converter, 2... Program signal reception memory, 3... Program signal processing section, 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 section, lO... Packet type determination section, 11... Non-volatile memory, +5... C20°

Claims (1)

[Scope of Claims] 1) A program signal processing section that receives a broadcast program signal and performs predetermined signal processing on the signal, and a decoder section that controls the operation of the program signal processing section according to the contents of receiver control software. In the receiver control software update method for broadcast receivers equipped with a set of first data signals including an address for starting a new control software, a check bit for checking whether there is an error in the contents of the received set of data, and a starting address for starting new control software; a receiving side, comprising means for transmitting a second data signal including a check bit for checking whether there is an error in the content of the received data, to the receiver using a digital signal transmission path; , a non-volatile memory for storing receiver control software; and when receiving the set of first data signals or the set of second data signals, check bits are used to check the set of the set of data signals. means for inspecting whether there are any errors in the contents of the data; and if there is no error as a result of the inspection, when the first data signal of the batch is received, a memory address indicated by the address data in the data signal; means for storing program data received in the data signal; and if there is no error as a result of the inspection, when the batch of second data signals is received, a new program data is stored from the memory address indicated by the activation address data in the data signal; 1. A method for updating control software for a broadcasting receiver, comprising: a means for activating receiver control software; and updating the receiver control software to change functions of the receiver. 2) On the transmitting side, a program check bit is used to check whether all or part of the new receiver control software stored in the receiver's non-volatile memory has errors, and a non-volatile memory that performs the check is installed. and means for transmitting data indicating a memory address range to the receiver together with the activation address data using the second set of data signals, and on the receiving side, when receiving the second set of data signals, , means for checking whether there are any errors in the contents of the program data stored in the address range specified in the data signal using a program check bit in the data signal, and if there is no error as a result of the check; ,
2. The control software update method for a broadcasting receiver according to claim 1, further comprising means for activating new receiver control software from an address indicated by activation address data in the data signal.