RU2099896C1 - Information commutation, collection and processing system - Google Patents

Abstract

FIELD: construction of automatic commutation units and quasi-electron automatic telephone exchanges of small and medium capacity. SUBSTANCE: system includes m units of incoming and m units of outgoing communication 4₁-4_m and 5₁-5_m correspondingly, commutation units of first and second link 1₁-1_n and 2₁-2_n, additional commutation units 3, first and second information storage and sending units 6 and 7, first, second, third, fourth concentration units 8, 9, 10 and 11. EFFECT: diminished blocking of customary subscribers, additional services to privileged subscribers coupled to access to data bank with minimal volume of equipment. 1 dwg

Description

 The invention relates to switching equipment and can be used to build nodes of automatic switching and quasi-electronic automatic telephone exchanges of small and medium capacity.

 Known switching systems containing m nodes of incoming communication m nodes of outgoing communication, with each node of incoming and outgoing communication contains n blocks of switching of the first link, n blocks of switching of the second link, as well as an additional switching unit and a storage unit and information output.

A disadvantage of the known device is the presence of a large number (2 _m ) of information storage and output units, which are databases in the form of computers.

 Achievable technical result is to simplify the specified system while maintaining its functionality. To achieve this result, only two storage and output units and four concentration units are used.

 The drawing shows a functional electrical diagram of a switching system, collecting and processing information.

The system of switching, collecting and processing information will contain n switching blocks of the first link 1 ₁ 1 _n n switching blocks of the second link 2 ₁ 2 _n , an additional switching block 3 in each node of the incoming connection 4 ₁ 4 _m and in each node of the outgoing communication 5 ₁ 5 _m , the first and second blocks of storage and delivery of information 6 and 7, respectively, as well as the first, second, third and fourth concentration blocks of 8 10 respectively.

 The system of switching, collecting and processing information works as follows.

A call from a regular subscriber is received at the corresponding switching unit of the link unit 1 ₁ 1 _{n-1 of the} corresponding incoming communication node 4 ₁ 4 _m . From the output of this switching unit of the first link, a connection is made with the required switching unit of the second link 2 ₁ 2 _n-1 . If you need another connection with this unit or access to the nth (1 _n or 2 _n ) switching unit, then such a connection is made through an additional switching unit 3. Similarly, the connection is made in outgoing communication nodes 5 ₁ 5 _m .

Privileged (priority) subscribers are included in the nth switching blocks of the first link 1 _n incoming nodes 4 ₁ 4 _m .

To communicate with other subscribers of the same category, they are allocated (n L 2) lines connecting the nth switching blocks of the first and second links 1 _n and 2 _n , which allows blocking to be excluded. In addition, privileged subscribers can communicate with regular subscribers with a lesser probability of busy intermediate lines (locks).

 Preferred subscribers have an additional service, which consists in the possibility of storage and delivery of information 6 and 7 (databases), in which subscribers can store (write) information or use the information recorded in these blocks.

Since the number of inputs / outputs to (ports) of the information storage and delivery units 6 and 7 is limited, and the simultaneous operation of all privileged subscribers with them is unlikely, concentration blocks of 11 have been introduced. Since the information is transmitted in both directions, the conclusions of the concentration blocks are divided into inputs and outputs condition, the conclusions connected to the outputs of the switching units of the first link 1 _n , cause the inputs of the concentration blocks their number is equal to (L xm) in the first and third concentration blocks 8 and 10.

The findings connected to the inputs of the switching units of the second link 2 _n , we call the outputs of the concentration blocks of the second t of the fourth concentration blocks 9 and 11, their number is also (L xm).

 The number of outputs of the first and third concentration blocks 8 and 10, the number of outputs of the second and fourth concentration blocks 9 and 11, as well as the number of inputs and outputs of the information storage and output units 6 and 7 are the same and equal to, therefore, each information storage and output unit 6 and 7 can use simultaneously to privileged subscribers.

 The system of switching, collecting and processing information allows you to reduce the cost of installing databases (storage units and issuing information) by reducing their number to the number of links in the system.

Claims (1)

A system for switching, collecting and processing information containing m nodes of incoming communication, the outputs of which are connected to the corresponding inputs of m nodes of outgoing communication, while each node of incoming and outgoing communication contains n switching blocks of the first link, n switching blocks of the second link, and n
1 outputs of the nth switching block of the first link (where i 1,2. N 1) are connected to the i-th inputs of n 1 switching blocks of the second link, while the nth outputs of the switching blocks of the first link are connected through an additional switching block to the corresponding n -th inputs of the switching blocks of the second link, and n L - 2 outputs of the n-th switching blocks of the first link are connected to n L 2 the corresponding inputs of the switching blocks of the second link, as well as the first and second blocks of storage and delivery of information, characterized in that the first second, third and fourth blocks end traction, while the inputs of the first and third concentration blocks are connected to the L outputs of the n-th switching blocks of the first link of incoming and outgoing communication nodes, respectively, the outputs of the first and third concentration blocks through the first and second information storage and output blocks, respectively, are connected to the inputs of the second and the fourth concentration blocks, the outputs of which are connected to the L inputs of the switching blocks of the second link of the nodes of incoming and outgoing communication.