WO2001095593A1

WO2001095593A1 - Communication terminal

Info

Publication number: WO2001095593A1
Application number: PCT/JP2001/004750
Authority: WO
Inventors: Shu Murayama; Susumu Oka; Yukinari Matsuda; Tokumichi Murakami
Original assignee: Mitsubishi Denki Kabushiki Kaisha
Priority date: 2000-06-06
Filing date: 2001-06-05
Publication date: 2001-12-13
Also published as: JP3636638B2; JP2001345875A

Abstract

There are provided a stream identifying unit (11) for deciding that an input stream is of a stream class corresponding to the synchronization pattern of the input stream when comparing the input stream with a plurality of different synchronization patters to detect whether any one of the synchronization patters is included in the stream and detect that a particular synchronization patter appears in a predetermined manner; and a communication control unit (21) for performing a reception processing corresponding to the stream class decided by the stream identifying unit(11).

Description

Description Communication terminal Technical field

The present invention relates to a communication terminal that automatically identifies the type of a stream to be input. Background art

FIG. 1 is a conceptual diagram showing a multiplexed frame in a conventional communication terminal disclosed in, for example, Japanese Patent Application Laid-Open No. 11-168584, in which 1 is a synchronization flag, 2 is a header, 3 is an information field.

FIG. 2 is a block diagram showing a multiplexed frame synchronization detecting unit on the receiving side in a conventional communication terminal. In FIG. 2, reference numeral 4 denotes a bit for detecting synchronization by comparing a synchronization flag pattern from a received bit stream. Unit flag detection means.

Next, the operation will be described.

There are various multimedia data overnight services that multiplex video and audio with video conferencing, video telephony, and recent digital broadcasting. All of them multiplex video and audio. There are various international standards for the multiplex transmission format. Devices that implement the above services have been dedicated devices that differ from service to service so far. For example, it is common for video conference terminals to use the ITU-T international standard H.221 for the multiplex format. It was only necessary to support the transmission and reception function of the H.221 stream. Similarly, in a receiving terminal for digital broadcasting, H.22.0 (MPEG-2 system standard) is generally used as a multiplexing standard. It would have been nice to support this demultiplexing function.

For example, consider a communication terminal that receives the multiplexing protocol H.223 stream of the ITU-T recommendation, and especially the operation of the synchronization detector for the input stream.

Fig. 1 shows the format of the multiplexed frame of the H.223 multiplexing layer. One byte of synchronization flag 1 "0 1 1 1 1 1 1 0" (binary number) Followed by a header 2 and an information field 3. In FIG. 2, the bit unit flag detecting means 4 detects the synchronization flag 1 and shifts the previously received bit stream by one bit every time one bit is received. While synchronizing, match with the synchronization flag pattern "0 1 1 1 1 1 1 0" (binary number) to detect synchronization.

Since the conventional communication terminal is configured as described above, it is assumed that the input stream is the H.223 stream, and only the H.223 ® stream is used. It specializes in the detection of synchronization, and has problems such as the inability to establish synchronization when receiving a stream that conforms to another standard.

The present invention has been made to solve the above-described problem. Even when there are a plurality of input stream types, the stream type is automatically recognized, synchronization is established, and the input stream type is established. The purpose is to obtain a communication terminal that realizes the reception process overnight according to the stream type. Disclosure of the invention

The communication terminal according to the present invention compares an input stream with a plurality of different synchronization patterns, detects whether any of the synchronization patterns is included in the stream, and performs a specific synchronization. A stream identification unit that, when detecting that a pattern appears as specified, determines that the input stream is of a stream type corresponding to the synchronization pattern, And a communication control unit that performs reception processing corresponding to the stream type determined by the stream identification unit.

As a result, the stream type can be automatically determined according to the input stream, and reception processing corresponding to the stream type can be performed. There is an effect that the receiving process can be performed according to the ream type.

Also, in the communication terminal according to the present invention, the stream identification unit detects a synchronization pattern composed of a continuous bit string from the effective data in the input stream, and detects the synchronization pattern at a constant interval. This is to detect the appearance of.

This has the effect that the stream type can be determined for a stream in which the synchronization pattern appears at regular intervals in a continuous bit string.

Further, in the communication terminal according to the present invention, in the stream identification unit, the TS packet synchronization byte specified by the ITU-T recommendation H.22.0 (MPEG-2 system standard) is used as a stream. The communication control unit detects that it appears at regular intervals during the effective data during the stream, and the communication control unit performs reception processing based on this detection in accordance with the MPEG-2 system standard.

From this, it is possible to determine that the input stream complies with ITU-T Recommendation H.22.0, and to perform reception processing corresponding to the stream type. There is an effect that can be done.

Further, in the communication terminal according to the present invention, in the stream identification unit, the synchronization flag and the specific bit string specified in ITU-T recommendation H.223 (including Annex) are stream-specific. The communication control unit detects that it appears consecutively during the effective data in the middle, and the communication control unit performs reception processing in accordance with the H.223 (including Annex) standard based on this detection. . This makes it possible to determine that the input stream complies with ITU-T Recommendation H.223, and to perform the reception processing corresponding to the stream type. There is.

Further, in the communication terminal according to the present invention, in the stream identification unit, the storage unit that stores the input streams in the order of reception, and the stream that is stored in the storage unit while repeating the bit shift. A search unit that compares a predetermined synchronization pattern to detect a match between the two and detects a position in the stream at which the match is detected, and a match between the two is detected by the search unit. In such a case, it is provided with a discriminator for judging the stream type according to the synchronization pattern in which the match is detected and the position in the stream.

Further, in the communication terminal according to the present invention, the stream identification unit detects a synchronization pattern from a bit string extracted at regular intervals from the effective data in the input stream, and detects the synchronization pattern. This is to detect the appearance at intervals.

As a result, the stream type can be determined for a stream in which the bits forming the synchronization pattern appear at regular intervals in a continuous bit string.

Further, in the communication terminal according to the present invention, the stream identification unit detects the frame synchronization word and the multi-frame synchronization word defined in ITU-T Recommendation H.221, and the communication control unit Based on this detection, reception processing is performed according to H.221.

From this, it is possible to determine that the input stream complies with ITU-T Recommendation H.221, and There is an effect that a suitable receiving process can be performed.

Further, in the communication terminal according to the present invention, the stream identification unit regards the input stream as having a matrix configuration, and transposes the rows and columns of the input stream. The storage section to be stored is compared with the stream stored in the storage section while repeating the bit shift, and a frame synchronization word as a synchronization pattern, and a match between the two is detected, and the coincidence is detected. Detects the position in the stream, and detects the match with the multi-frame synchronization code, which is the synchronization pattern, according to the bit string obtained by continuously sampling one bit before the detected position. And a discriminator for judging the stream type according to the match between the frame synchronization word and the multi-frame synchronization code by the search unit and the position in the stream where the match was detected. Than it is.

This makes it possible to determine the stream type of a stream in which the bits constituting the synchronization pattern appear at a constant interval in a continuous bit string, and furthermore, the ITU-T Recommendation H.221 This has the effect that the internal channel configuration can also be recognized in the identification of.

Further, in the communication terminal according to the present invention, the stream identification unit detects two or more types of synchronization patterns at the same time, and determines the stream type based on the synchronization pattern detected earlier. Things.

As a result, compared with the case where two or more types of synchronization patterns are sequentially detected, the stream type can be determined quickly without depending on the detection order.

Further, the communication terminal according to the present invention, in the stream identification unit, has a plurality of storage units and a plurality of search units, and simultaneously detects two or more types of synchronization patterns. It is.

As a result, the storage method or comparison method differs greatly, This has the effect that synchronization patterns can be simultaneously detected for stream types for which synchronization patterns cannot be detected simultaneously by the storage unit and the same search unit.

Further, in the communication terminal according to the present invention, in the stream identification unit, detection of two or more types of synchronization patterns is switched at regular intervals and executed, and the stream type is determined based on the detected synchronization patterns. This has the effect that the processing capacity of the storage unit and the search unit can be reduced as compared with the case where two or more types of synchronization patterns are detected at the same time. Furthermore, the communication terminal according to the present invention has one storage unit and one search unit in the stream identification unit, and uses a storage method and a search method when detecting two or more types of synchronization patterns. Switching is performed at regular intervals.

This has the effect that the processing capacity of the storage unit and the search unit can be reduced compared to the case where two or more types of synchronization patterns are detected at the same time. Further, in the communication terminal according to the present invention, the stream identification unit determines the switching order and the switching time of the storage method and the search method according to the priority.

As a result, when an index that correlates to the detection frequency is introduced, the stream type can be determined quickly and any stream type can be determined preferentially according to its importance. .

Furthermore, in the communication terminal according to the present invention, the stream identification unit determines the stream type once, and continues to detect a plurality of synchronization patterns even when communication is being performed. .

This has the effect of being able to follow the switching even when the source switches stream types during communication. Further, in the communication terminal according to the present invention, the communication control unit performs not only the reception process corresponding to the determined stream type, but also performs the process corresponding to the stream type in the transmission process. That's how it was done.

This has the effect that a response can be made to the source with the same stream type as the received stream type.

Further, in the communication terminal according to the present invention, when the communication control unit holds the destination identification number and the data of the stream type used at that time for the communication partner who has performed communication once, The destination identification number is collated, and if there is a record of the stream type, transmission / reception processing is performed according to the stream type.

This has the effect that the stream type can be quickly determined for the communication partner who has once communicated. BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 is a conceptual diagram showing a multiplexed frame in a conventional communication terminal. FIG. 2 is a block diagram showing a multiplexed frame synchronization detector on the receiving side in the conventional communication terminal.

FIG. 3 is a block diagram showing a communication terminal according to Embodiment 1 of the present invention. FIG. 4 is a diagram showing a TS packet synchronization byte of ITU-T Recommendation H.22.0 (MPEG-2 system standard). FIG.

FIG. 5 is a conceptual diagram showing an even frame configuration and an odd frame configuration in the frame configuration (single 64 Kbps channel) of ITU-T Recommendation H.221. FIG. 6 is an explanatory diagram showing the position of the multi-frame synchronization word in the multi-frame in which only the eighth sub-channel is extracted for a plurality of consecutive frames of H.221.

FIG. 7 is an explanatory diagram showing the order of writing input data to the storage unit. FIG. 8 is an explanatory diagram showing a state before writing in an example of writing input data to the storage section.

FIG. 9 is an explanatory diagram showing a state after writing in an example of writing input data to the storage section.

FIG. 10 is a conceptual diagram showing a frame configuration (two 64 Kbps channels) in H.221.

FIG. 11 is a conceptual diagram showing a frame configuration (one 128 Kbps channel) in H.221. BEST MODE FOR CARRYING OUT THE INVENTION

Hereinafter, in order to explain this invention in greater detail, the preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Embodiment 1.

FIG. 3 is a block diagram showing a communication terminal according to Embodiment 1 of the present invention. In the figure, reference numeral 11 denotes a stream which is compared with a plurality of different synchronization patterns with respect to an input stream to obtain a specific When it is detected that the pattern appears as specified, the stream identification unit determines that the input stream is of the stream type corresponding to the synchronization pattern, and 21 is the determined stream type. Determined by the communication control unit that performs transmission / reception processing corresponding to the stream type.

In the stream identification section 11, 12a and 12b are two storage sections for storing an input stream, and 13a and 13b are bit shifts. Repeatedly, the streams stored in the storage units 12a and 12b are compared with a predetermined synchronization pattern to detect a match between the two, and two search units 14 are search units 13a and 1b. This is a discrimination unit that determines the stream type in accordance with the detection of coincidence between the two by 3b.

Fig. 4 is a conceptual diagram showing the TS packet synchronization byte of ITU-T Recommendation H.22.0 (MPEG-2 System Standard).

Fig. 5 is a conceptual diagram showing the even frame configuration and the odd frame configuration in the frame configuration (single 64 Kbps channel) of ITU-T Recommendation H.221.

FIG. 6 is an explanatory diagram showing the position of a multi-frame synchronization word in a multi-frame in which only the eighth sub-channel has been extracted for a plurality of consecutive frames of H.221.

FIG. 11 is a conceptual diagram showing a frame configuration (one 128 Kbps channel) in H.221.

Next, the operation will be described.

Since the communication terminal shown in FIG. 3 is a communication terminal that supports a plurality of stream types, the stream identification unit 11 needs to determine the input stream type. In the first embodiment, the determination is made using the fact that the synchronization flag in the stream differs depending on the stream type. The communication terminal according to the first embodiment is, for example, a communication terminal that supports three types of multimedia multiplexing schemes of ITU-T Recommendations H.222.0, H.221, and H.223. I do.

The synchronization pattern in the stream may exist in a continuous bit sequence, or may exist in a bit sequence sampled at regular intervals.

An example of the former is, for example, ITU-T Recommendation H.22.0. As shown in Fig. 4, the stream has a packet structure of 188 bytes, and "47 (hexadecimal)" is present at the beginning of each bucket. Similarly, in the case of H.223, the HDLC flag "0 1 1 1 1 1 1 0" is the synchronization pattern.

An example of the latter is ITU-T Recommendation H.221. As shown in Fig. 5, it basically consists of eight 80-bit subchannels. Since the stream is sequentially transmitted one bit at a time from each subchannel, the frame synchronization word stored in the eighth subchannel is detected discontinuously (at a constant interval) in the reception stream. In FIG. 5, upper frames represent even frames, and lower frames represent odd frames. In even frames, 7 bits from the second bit to the eighth bit of the eighth sub-channel are shown. In the odd-numbered frame, the frame synchronization word is stored in the second bit of the eighth subchannel, and the combined 8 bits are the frame synchronization word. In addition, a multiframe synchronization word is stored in the first bit of the eighth subchannel of the odd frame.

In the case of H.221, a multi-frame configuration is formed by combining a plurality of frames. Fig. 6 shows the 8th subchannel of a continuous frame cut out and arranged side by side, and contains a multiframe synchronization word. In addition to the 7-bit pattern included in the aforementioned even frame, Combined with one bit included in the odd frame, it becomes a complete 8-bit frame synchronization code. Also, the first bit of the eighth sub-channel of the odd-numbered frame is extracted continuously for 6 bits, which is a complete multi-frame synchronization mode.

Since the difference in the method of inserting a synchronization pattern in such a stream causes a great difference in the complexity of the search, in Embodiment 1, these two methods for inserting the synchronization pattern are used. Considering this, two storage units 12a and 12b are provided inside the stream identification unit 11 and stored in the internal memory in a different writing order. Fig. 7 shows the method of storing data in the storage units 12a and 12b. The storage unit 12a is simply packed sequentially in the memory and stored.On the other hand, the storage unit 12b is regarded as having the frame configuration shown in Fig. 5 as a matrix. The row direction and the column direction are exchanged, and the data already written in the storage destination is bit-shifted so that the data is stored in the memory in a transposed state. Store them one by one. The storage area uses a certain area repeatedly. 8 and 9 show before and after an actual stream input example, and FIG. 8 shows a state before writing. In FIG. 8, "0 1 0 1 0 1 0 0" is already stored in the storage sections 12a and 12b, and then "1 1 0 1 1 1 0 1 0 0" is stored. Indicates the place to be stored. Note that the numerical values expressed here are shown in the order of reception, and therefore, the numerical values shown in FIG. 8 are expressed in the reverse order of “0” and “1”.

Fig. 9 shows the state after writing. In the storage section 12a, "1 1 0 1 1 1 0 1 0 0" is received after "0 1 0 1 0 1 0 0" While they are stored in order, they are always stored at the right end in the storage unit 12b. That is, when writing a new numerical value, write the already written numerical value to the right end. Shift one bit in the direction, and write to the empty rightmost area in the column direction in the order received. In the first embodiment, since the number of sub-channels of H.221 is 8, the bit shift and the writing of 1 bit are repeated eight times, and then, the area returns to the area where the writing is first performed.

The search unit 13a searches for a synchronization pattern for the data stored in the storage unit 12a. In the case of H.22.0, the discriminator 14 sends the TS packet first byte “0 1 0 0 0 1 1 1” (binary or hexadecimal “47”) as the synchronization pattern. The synchronization pattern is set and compared with the data on the storage unit 12a while shifting the synchronization pattern one bit at a time. Since there is no common unique code among the three types of stream in the first embodiment, there is a possibility that “47” (hexadecimal) may be detected even at a position other than the beginning of the TS packet. Therefore, the search unit 13a notifies the discrimination unit 14 of the match detection information indicating that a match has been detected and the detection position information corresponding to the position in the stream where the match was detected. Then, the discriminator 14 analyzes the detected position information and confirms that the appearance is at a fixed interval (188 bytes). Then, the discriminator 14 informs the communication controller 21 of H.22 as the stream type. 2. Notify that 0 has been detected.

Similarly, for H.223, the search unit 13a searches for the HDLC flag "0 1 1 1 1 1 1 0" (binary) as a synchronization pattern, and if the detection can be confirmed continuously, the communication is started. The control unit 21 is notified that H.223 has been detected as the stream type. In this case, since the HD LC flag is unique, there is no "0 1 1 1 1 1 1 0" other than the HD LC flag in the stream. Then, it is not necessary to notify the detection position information to the determination unit 14.

Therefore, the setting of the synchronization pattern for the search unit 13a by the determination unit 14 is performed by switching the first byte of the TS packet and the HDLC flag at regular intervals, By performing the synchronization detection alternately, it is possible to determine which stream type is H.22.0 or H.223. On the other hand, the search unit 13b searches for a synchronization pattern with respect to the data stored in the storage unit 12b. According to the storage method of the storage unit 12b shown in FIGS. 8 and 9, the frame synchronization mode which is the synchronization pattern of H.221 (part) "0 0 1 1 0 1 1" (2 Base number) is stored in one row of the storage unit 12b, that is, on the same address, so that the synchronization pattern is shifted by one bit, as in the search unit 13a. Compare with the above de 一 overnight. Then, the search unit 13b notifies the discrimination unit 14 of the match detection information indicating that a match has been detected and the detection position information corresponding to the position in the stream where the match has been detected. I do.

The determination unit 14 analyzes the detected position information and confirms that the detected position information to be notified is at a constant interval (80 bytes), as in the case of H.22.0 described above. .

In H.221, the search unit 13b further confirms the existence of the remaining one bit of the frame synchronization word existing in the odd-numbered frame with reference to the detection position, and then executes the immediately preceding bit. Is extracted for each frame, and the detection of the multi-frame synchronization guide is performed together.

After these are all confirmed, the determination unit 14 notifies the communication control unit 21 that H.221 has been detected as the stream type.

In the first embodiment, since the synchronous patterns are detected simultaneously by the two search units 13a and 13b, the discriminating unit 14 gives priority to the one in which a match is detected first. To be adopted.

The communication control unit 21 performs reception processing corresponding to the stream type according to the determination result of the stream type from the determination unit 14.

The communication control unit 21 also performs the above-mentioned stream type Using another judgment result, the transmission process corresponding to the type is performed. In the communication control unit 21 of the first embodiment, the determination result of the stream type is stored in an internal memory or the like together with a communication destination identification number, for example, a telephone number, and the like. At this time, the identification number of the other party is compared with the internal memory, and if there is a record of the stream type, reception processing and transmission processing may be performed according to the stream type.

In addition, in the storage unit 12a and the search unit 13a of the first embodiment, the search performed alternately for the two stream types may be performed simultaneously. In this case, the determination unit 14 notifies the communication control unit 21 of the stream type corresponding to the previously detected synchronization pattern.

Further, in the first embodiment, a plurality of, for example, two storage units and two search units are provided to perform the processing simultaneously and in parallel. However, the storage unit and the search unit are each one, and The switching may be performed alternately every time.

Further, in the first embodiment, the streams stored in the storage section 12a in the order of reception are stored from the lower bits in the memory, but are specified to be transmitted from the upper bits. In order to determine the type of stream that is being used, the bit order of the synchronization pattern should be changed.

Furthermore, the order of switching between the storage unit and the search unit is not arbitrary, and may be determined according to some priority. Similarly, the switching time may not be constant, and may be determined according to the priority.

Furthermore, regarding the comparison with the search pattern for a continuous bit string performed in the storage unit 12a and the search unit 13a, the storage in the storage unit 12a is omitted, and the storage unit 12b The processing may be performed in real time by a dedicated circuit during writing to the memory.

In addition, once the stream type has been determined, even during communication, a plurality of streams including the synchronization code corresponding to the stream type that is continuously communicating are transmitted. The determination of the stream type for the initial pattern may be continued, and when another stream type is determined, the transmission / reception processing may be automatically switched according to the new determination.

Furthermore, H.223 / AnnexA can be detected similarly to the detection of H.223 in the first embodiment. In this case, the synchronization pattern is a synchronization code defined by the standard, and the detection interval is 0.

Further, similarly to the detection of H.223 in the first embodiment, H.223 / AneXB can be detected. The synchronization pattern in this case is defined by the same standard, and is a synchronization word similar to the above H.223 / Annexe XA, and a "00 00 00 00 0" (binary number) following it.

Further, similarly to the detection of H.223 in the first embodiment, H.223 / Ann C can be detected. The synchronization pattern in this case is specified by the same standard, and is a synchronization word similar to the above H.223 / Annexe XA, and "0000 1 1 1 1" (binary number) following it.

Further, in the input stream in the storage section 12b of the first embodiment, the repetition unit of 1-bit shift and 1-bit write is 8, but the frame configuration of H.221 is the sixth. In addition to the configuration shown in the figure, the bit rate may increase the number of sub-channels as shown in Figs. 10 and 11 (the maximum number of bits specified in H.221). Tray, up to 30 channels, 240 sub-channels). In the method of storing the incoming stream in the storage section 12b shown in Fig. 7, the frame synchronization word cannot be detected correctly, so the write repetition unit in the storage section 12b is expanded to (8Xn). May be.

n is the number of sub-channels, which is determined by the bit rate (the maximum value is 30). In the case of the first embodiment, the total is 128 Kbps in all cases, so that n = 16 ÷ 8 = 2. In the case of the single channel shown in FIG. 11, the detection position of the synchronization pattern is one in the storage unit 12b, but it is composed of a plurality of channels as shown in FIG. In this case, since a plurality of synchronization patterns are detected, the judgment unit 14 needs to manage a plurality of pieces of detected position information.

In addition, when the bit rate cannot be obtained in the first embodiment when determining n, n may be sequentially incremented from 1 at regular intervals until synchronization detection is performed.

Further, when the number of sub-channels is a multiple of 7, such as in the United States, the unit of repetition of writing in the storage unit 12b is (7 x n). Industrial applicability

As described above, the communication terminal according to the present invention, when there are a plurality of input stream types, automatically recognizes the stream type, establishes synchronization, and sets the stream type to It is suitable for receiving data according to it.

Claims

The scope of the claims

1. The input stream is compared with a plurality of different synchronization patterns, and it is detected whether any of the synchronization patterns is included in the stream. A stream identification unit that determines that an input stream is of a stream type corresponding to the synchronization pattern when the stream is detected, and a stream determined by the stream identification unit. Communication 1S terminal with communication control unit that performs reception processing corresponding to the type o

2. The stream identification unit detects a synchronization pattern composed of continuous bit strings from valid data in the input stream, and detects that it appears at regular intervals. The communication described in claim 1

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3. The stream identification unit recognizes the TS packet synchronization byte specified in ITU-T recommendation H.2 22.0 (MPEG-2 system standard) when the stream is valid during the stream. 2. The communication terminal according to claim 1, wherein the communication terminal detects that the communication terminal appears at a fixed interval, and the communication control unit performs a reception process in accordance with the MPEG-2 system standard based on the detection.

4. The stream identification unit uses a synchronization flag and a specific bit sequence specified in ITU-T recommendation H.223 (including Annex) that are continuous with the valid data in the stream. 2. The communication control unit according to claim 1, wherein the communication control unit performs reception processing in accordance with the H.223 (including Ann e X) standard based on the detection. Communication terminal.

5. The stream identification unit is configured to accumulate the input stream in the order of reception, and to compare the stream accumulated in the accumulation unit with a predetermined synchronization pattern while repeating bit shifting. A search unit that detects a match between the two and detects a position in the stream where the match is detected; and, when the search unit detects a match between the two, the match is detected. 2. The communication terminal according to claim 1, further comprising: a determination unit that determines a stream type according to the synchronization pattern and a position in the stream.

6. The stream identification unit detects synchronization patterns from bit strings extracted at regular intervals from valid data in the input stream, and detects that they appear at regular intervals. The one terminal according to claim 1, wherein

7. The stream identification unit detects the frame synchronization word and the multi-frame synchronization word specified in ITU-T Recommendation H.221, and the communication control unit detects H.221 by this detection. 2. The communication terminal according to claim 1, wherein the communication terminal performs a receiving process in accordance with the rules.

8. The stream identification unit assumes that the input stream has a matrix configuration, and repeats the storage unit that transposes and stores the input stream rows and columns, and repeats the bit shift. The stream stored in the storage unit is compared with the frame synchronization word, which is a synchronization pattern, to detect a match between the two and to detect a position in the stream at which the match is detected. According to a bit string obtained by continuously sampling one bit before the detected position, a detection for detecting a match with a multi-frame synchronization code which is a synchronization pattern is performed. A search unit, and a discrimination unit for judging a stream type according to a match between the frame synchronization word and the multi-frame synchronization word by the search unit and a position in the stream at which the match is detected. The communication terminal according to claim 1, wherein:

9. The communication according to claim 1, wherein the stream identification unit simultaneously detects two or more types of synchronization patterns and determines the stream type based on the synchronization pattern detected earlier. Terminal.

10. The claim range described in claim 9, wherein the stream identification unit has a plurality of storage units and a plurality of search units, and simultaneously detects two or more types of synchronization patterns. Communication terminal.

11. The stream identification unit switches and detects two or more types of synchronization patterns at regular time intervals, and determines a stream type based on the detected synchronization patterns. Communication terminal according to item 1.

1 2. The stream identification unit has one storage unit and one search unit, and switches the storage method and search method at regular intervals when detecting two or more types of synchronization patterns. The communication terminal according to claim 11, characterized by the following.

13. The communication terminal according to claim 12, wherein the stream identification unit determines a switching order and a switching time of the storage method and the search method according to the priority.

14. The communication terminal according to claim 1, wherein the stream identification unit once determines the stream type and continues to detect a plurality of synchronization patterns even when communication is being performed.

15. The communication control unit performs not only reception processing corresponding to the determined stream type, but also performs processing corresponding to the stream type in transmission processing. The communication terminal according to claim 1, wherein:

16-The communication control unit holds the destination identification number and the stream type used at that time for the communication partner who has once communicated, and compares the destination identification number when communicating. 2. The communication terminal according to claim 1, wherein, when a stream type is recorded, transmission / reception processing is performed according to the stream type.