Virtual tributary path idle insertion using timeslot interchange
First Claim
1. A terminating station for a synchronous multiplex transmission network, wherein a frame of a plurality of rows and a plurality of columns is transmitted through the network, said columns being divided into a first field for carrying a transport overhead and a second field for carrying a plurality of virtual tributary path data, said rows and columns defining a plurality of timeslots, the terminating station comprising:
- a bit pattern generator for generating a virtual tributary path idle (VTPI) pulse sequence;
means for receiving a frame and receiving said VTPI pulse sequence from said bit pattern generator and for inserting said VTPI pulse sequence into a portion of said first field of the frame and 0-bit sequences into other portions of said first field; and
timeslot interchange means coupled to said means for receiving and inserting for interchanging timeslots of said frame, said timeslot interchange means being further effective for copying contents of said first field of said frame into at least one column of the second field of said frame where virtual tributary path data is not present.
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Abstract
In a terminating station for a synchronous multiplex transmission network in which a frame of i rows and j columns is transmitted, the j columns of the frame is divided into k+m columns, with the k columns carrying a transport overhead and the m columns carrying an information payload. The m columns are subdivided into k groups of n columns each, and each of the corresponding n columns of each group carries a virtual tributary traffic. In the terminating station, a virtual tributary path idle (VTPI) pulse sequence is generated and inserted into the k columns of each frame. A timeslot interchanger, which provides the usual timeslot interchange within the frame, copies the contents of the k columns of the frame into one or more of the n columns of the k groups, respectively, of the same frame.
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Citations
4 Claims
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1. A terminating station for a synchronous multiplex transmission network, wherein a frame of a plurality of rows and a plurality of columns is transmitted through the network, said columns being divided into a first field for carrying a transport overhead and a second field for carrying a plurality of virtual tributary path data, said rows and columns defining a plurality of timeslots, the terminating station comprising:
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a bit pattern generator for generating a virtual tributary path idle (VTPI) pulse sequence; means for receiving a frame and receiving said VTPI pulse sequence from said bit pattern generator and for inserting said VTPI pulse sequence into a portion of said first field of the frame and 0-bit sequences into other portions of said first field; and timeslot interchange means coupled to said means for receiving and inserting for interchanging timeslots of said frame, said timeslot interchange means being further effective for copying contents of said first field of said frame into at least one column of the second field of said frame where virtual tributary path data is not present. - View Dependent Claims (2)
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3. A terminating station for a synchronous multiplex transmission network, wherein a frame of a plurality of rows and a plurality of columns is transmitted through the network, said columns being divided into a first field for carrying a transport overhead and a second field for carrying a plurality of virtual tributary path data, said rows and columns defining a plurality of timeslots, the terminating station comprising:
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a controller; a plurality of transport overhead extraction circuits, each of the transport overhead extraction circuits receiving an incoming frame and extracting a transport overhead (TOH) therefrom and supplying the extracted transport overhead to said controller; a plurality of virtual tributary path idle (VTPI) insertion circuits connected respectively to outputs of said transport overhead extraction circuits, each of the VTPI insertion circuits receiving a TOH-extracted frame from the corresponding TOH extraction circuit, each of the VTPI circuits generating a virtual tributary path idle (VTPI) pulse sequence and inserting said VTPI pulse sequence into a portion of said first field and 0-bit sequences into other portions of said first field and producing a VTPI-containing frame, and producing a frame not containing said VTPI when all columns of the second field of the received frame carry virtual tributary path data; a switching network having a plurality of inlet terminals connected respectively to said VTPI insertion circuits and a plurality of outlet terminals, said switching network being responsive to a control signal from said controller for providing timeslot interchanging on the VTPI-containing frame and on the frame not containing the VTPI, and switching the timeslot-interchanged frames to said outlet terminals, said switching network being further effective for copying contents of the first field of the VTPI-containing frame into at least one column of the second field of the VTPI-containing frame where virtual tributary path data is not present; and a plurality of transport overhead insertion circuits coupled respectively to the outlet terminals of said switching network for rewriting the first field of each of frames from the switching network with a transport overhead supplied from said controller. - View Dependent Claims (4)
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Specification