Automatic initialization of a distributed telecommunication system
First Claim
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1. A telecommunication switching system having a plurality of switching nodes each having a plurality of internal link interfaces individually connected to one of a plurality of links, comprising:
- means within each of said switching nodes for performing self-initialization of each of the switching nodes without knowledge of internal link interfaces and without knowledge of the identity of the switching nodes connected to the other end of links individually connected to each internal link interface;
means within each of the switching nodes for controlling each of the internal link interfaces with each interconnected via one of the links to another internal link interface in another switching node to perform low level protocol initialization functions whereby each internal link interface is identified and reported as having completed the low level protocol initialization functions to the means for performing self-initialization of the switching node of which each internal link interface is a part;
means within each of a pair of the switching nodes interconnected via a pair of the internal link interfaces and one of the interconnecting links for exchanging switching node numbers in response to the completion report to identify switching nodes relative to each other within a switching node hierarchy; and
means within each of the switching nodes further for using knowledge of the switching node hierarchy for routing calls through the telecommunication switching system.
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Abstract
A communication switching system having a plurality of switching nodes in which each switching node upon initialization completely establishes its own internal configuration. This establishment of internal configuration includes the number and type of switching modules and within each switching module: type of module control processor, type of internal switching network, printed board carriers, type and number of auxiliary circuits, and type and number of link interfaces. Each unit of a switching module reports relevant information to the module control processor; and in turn, the module control processor reports its own information and the information of the other units to a node processor (the main processor within a switching node). Further, each switching node and interfaces of the switching node automatically identifies the other switching nodes connected by communication links and switching paths to those switching nodes. Each interface upon being initialized automatically performs low level initialization operations over the connected link with the far end interface. The interfaces then report the completion of the initialization operations to the connected switching nodes. Upon receiving these reports, each switching node becomes aware of the existence of the links to other switching nodes. Each switching node then exchanges node numbers with the far end switching node connected via interfaces and communication links to establish the hierarchy of switching nodes in the switching system.
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Citations
15 Claims
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1. A telecommunication switching system having a plurality of switching nodes each having a plurality of internal link interfaces individually connected to one of a plurality of links, comprising:
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means within each of said switching nodes for performing self-initialization of each of the switching nodes without knowledge of internal link interfaces and without knowledge of the identity of the switching nodes connected to the other end of links individually connected to each internal link interface; means within each of the switching nodes for controlling each of the internal link interfaces with each interconnected via one of the links to another internal link interface in another switching node to perform low level protocol initialization functions whereby each internal link interface is identified and reported as having completed the low level protocol initialization functions to the means for performing self-initialization of the switching node of which each internal link interface is a part; means within each of a pair of the switching nodes interconnected via a pair of the internal link interfaces and one of the interconnecting links for exchanging switching node numbers in response to the completion report to identify switching nodes relative to each other within a switching node hierarchy; and means within each of the switching nodes further for using knowledge of the switching node hierarchy for routing calls through the telecommunication switching system. - View Dependent Claims (2)
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3. A telecommunication switching system having a plurality of switching nodes interconnected by a plurality of links, comprising:
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each switching node comprises a node processor controlling each switching node; each switching node further comprises switching modules each comprising the following units;
a module control processor, a switching network, physical mounting carriers, and internal link interfaces each connected to one of the interconnecting links;means in the node processor adapted for initializing without knowledge of the number or type of these units; means in each of these units adapted for identifying themselves upon initialization to the node processor via the module control processor; means within each switching node upon initialization for exchanging switching node numbers with switching nodes interconnected to each switching node via the interconnecting links to identify themselves relative to each other within a switching node hierarchy; means within each switching node upon initialization for determining a path to the switching node next higher in the switching node hierarchy to itself; and means within each of the switching nodes for initially routing calls through the telecommunication switching system by using knowledge of the switching node hierarchy obtained upon initialization by the exchange of node numbers.
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4. A telecommunication switching system comprising:
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a plurality of switching nodes interconnected by links; each switching node comprises a node processor having overall control of each switching node; each switching nodes comprises switching modules controlled by the node processor of each switching node without preinitialization knowledge of the number or type of switching modules; each switching module comprises the following units;
a module control processor, a switching network, physical mounting carriers, and internal link interfaces with each internal link interface connected to one of the interconnecting links;means in each of the units for identifying itself to the middle control processor of its switching module upon initialization; and means in each module control processor each switching module for identifying its switching module and units to the node processor of switching node of which each switching module is a whereby the node processor obtains knowledge of each switching module and the number and types of units in each switching module. - View Dependent Claims (5, 6, 7)
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8. A method of controlling a telecommunication switching system having a plurality of switching nodes each having a plurality of internal link interfaces individually connected to one of a plurality of links, the method comprising the steps of:
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performing self-initialization by each of said switching nodes without knowledge of the internal link interfaces and without knowledge of the identity of the switching nodes connected to the other end of links individually connected to each internal link interface; performing by a pair of internal link interfaces interconnected via one of the links low level protocol initialization functions whereby each of the pair of the internal link interfaces identifies itself and reports the completion of the low level protocol initiation functions to the switching node of which it is part; exchanging by each pair of the switching nodes interconnected via a pair of the internal link interfaces and one of the interconnecting links switching node numbers in response to the completion report to identify themselves relative to each other within a switching node hierarchy; and using by the switching nodes knowledge of the switching node hierarchy for routing calls through the telecommunication switching system. - View Dependent Claims (9)
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10. A method for controlling a telecommunication switching system having a plurality of switching nodes interconnected by a plurality of links, the method comprising the steps of:
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each switching node comprises a node processor controlling each switching node and each switching node comprises switching modules and each switching module comprises the following units;
a module control processor, a switching network, physical mounting carriers, and internal link interfaces with each internal link interface connected to one of the links and the step of exchanging comprises the steps ofinitializing by the node processor without knowledge of the number or type of these units and; identifying themselves by each of these units upon initialization to the node processor via the module control processor; exchanging by each switching node, upon initialization of each, switching node numbers with switching nodes interconnected to each switching node via the interconnecting links to identify themselves relative to each other within a switching node hierarchy; determining by each switching node upon initialization a path to the switching node next higher in the switching node hierarchy to itself; and routing calls through the telecommunication switching system by the switching nodes by using knowledge of the switching node hierarchy obtained during initialization by the exchange of node numbers. - View Dependent Claims (11)
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12. A method for controlling a telecommunication switching system having a plurality of switching nodes interconnected by links and each switching node having a node processor and switching modules with each switching module having a module control processor, a switching network, physical mounting carriers, and internal link interfaces with each internal link interface connected to one of the interconnecting links, the method comprising the steps of:
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controlling the switching modules of each switching node by the node processor which is a part of each switching node without preinitialization knowledge of the number or type of switching modules of each switching node; identifying itself by each of the switching network, physical mounting carriers and internal link interfaces of each switching module to the module control processor of each switching module upon initialization; and identifying by each module control processor the switching module and switching network, physical mounting carriers and internal link interfaces of each switching module of which each module control processor is part to the node processor whereby the node processor obtains knowledge of each switching module and the number and types of units in each switching module. - View Dependent Claims (13, 14, 15)
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Specification
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Current AssigneeAvaya Incorporated
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Original AssigneeAT&T Corporation (AT&T, Inc.)
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InventorsNorth, Sandra S., Thieler, Stephen M., Bales, Bruce M., Crumpley, Robert L.
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Primary Examiner(s)Dwyer, James L.
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Assistant Examiner(s)Hong, Harry S.
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Application NumberUS07/816,360Time in Patent Office1,128 DaysField of Search379/9, 379/10, 379/14, 379/15, 379/219, 379/220, 379/221, 379/230, 370/94.1, 370/110.1, 370/60, 370/60.1, 370/94.2, 370/94.3US Class Current379/221.06CPC Class CodesH04Q 2213/13097 Numbering, addressingH04Q 2213/13107 Control equipment for a par...H04Q 2213/13109 Initializing, personal profileH04Q 2213/13141 Hunting for free outlet, ci...H04Q 2213/13209 ISDNH04Q 2213/13353 Routing table, map memoryH04Q 2213/13383 Hierarchy of switches, main...H04Q 2213/13535 distributed systems - also ...H04Q 3/0062 Provisions for network mana...H04Q 3/54516 Initialization, software or...
