Apparatus, system and device for collecting, aggregating and monitoring network management information
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-015/173
G06F-015/16
출원번호
US-0435474
(2006-05-16)
등록번호
US-7318094
(2008-01-08)
발명자
/ 주소
Kirti,Rituraj
Parello,John
출원인 / 주소
Cisco Technology, Inc.
대리인 / 주소
Hickman Palermo Truong & Becker LLP
인용정보
피인용 횟수 :
7인용 특허 :
180
초록▼
A system, apparatus and device are described for collecting, aggregating and monitoring network management information from a plurality of network devices in a network management system. User-definable configuration information are utilized, which contain an operational specification on what to coll
A system, apparatus and device are described for collecting, aggregating and monitoring network management information from a plurality of network devices in a network management system. User-definable configuration information are utilized, which contain an operational specification on what to collect, aggregate and monitor, scheduled, e.g., at desired times or intervals. Network devices on the network are identified, then queried. Data are acquired in accordance with instructions contained in the operational specification. Transformations are performed and the data periodically monitored for compliance with specific threshold conditions. Notifications are generated whenever a threshold condition has been met. Data is stored to a database and aggregated to generate trending information. Data stored in the database can be subsequently removed automatically based on aging or other user-specified criteria. The data are rendered to a display for viewing by the user using device-specific GUI attributes.
대표청구항▼
What is claimed is: 1. An apparatus, comprising: a networking interface for interfacing said apparatus with a network; a processor coupled to said networking interface; and logic coupled to said processor, which when executed is operable for performing: configuring a network management system to ac
What is claimed is: 1. An apparatus, comprising: a networking interface for interfacing said apparatus with a network; a processor coupled to said networking interface; and logic coupled to said processor, which when executed is operable for performing: configuring a network management system to acquire data from specific network devices of a plurality of network devices in said network management system based on a user-definable operational specification; querying said specific network devices for data to form a set of acquired data based on said operational specification; transforming said acquired data to form a set of transformed data based on one or more formulas specified in said operational specification; and storing said transformed data to an information base to form a set of stored data based on said operational specification. 2. The apparatus as recited in claim 1, wherein said operational specification is defined in an Extensible Markup Language (XML) file. 3. The apparatus as recited in claim 1, wherein said operational specification includes a scheduler section to direct said network management system to perform said querying step at a preset point in time. 4. The apparatus as recited in claim 1, wherein said querying said specific network devices comprises using a network communication protocol that is defined in said operational specification for each of said specific network devices. 5. The apparatus as recited in claim 1, wherein said transforming said acquired data includes performing at least one arithmetic transformation on said acquired data, wherein said arithmetic transformation is specified with said operational specification. 6. The apparatus as recited in claim 1, wherein said logic, when executed, is operable for performing: monitoring said acquired data, said transformed data and said stored data for compliance with at least one threshold criterion value specified by said operational specification. 7. The apparatus as recited in claim 6, wherein said logic, when executed, is operable for performing: generating a notification when any of said acquired data, said transformed data and said stored data complies with said threshold criterion. 8. The apparatus as recited in claim 1, wherein said logic, when executed, is operable for performing: aggregating said stored data to form a set of trending data by performing at least one arithmetic aggregation on said stored data, wherein said arithmetic aggregation is specified by said operational specification. 9. The apparatus as recited in claim 1, wherein said logic, when executed, is operable for performing: removing a quantity of said stored data from said information base in accordance with information in said operational specification. 10. The apparatus as recited in claim 1 wherein said apparatus comprises a network infrastructure device. 11. The apparatus as recited in claim 10 wherein said network infrastructure device comprises a network management device. 12. A computer system, comprising: a networking interface for interfacing said computer system with a network; a processor coupled to said networking interface; and a network management configuration coupled to said processor and that comprises at least one configuration file which, when executed with said processor causes said processor to acquire data from a specific plurality of network devices on said network based on a user-definable operational specification; at least one query module which, when executed with said processor causes said processor to query said network devices for data to form a set of acquired data based on said operational specification; at least one transformation module which, when executed with said processor causes said processor to transform said acquired data into a set of transformed data based on said operational specification; at least one storage module which, when executed with said processor causes said processor to store said transformed data to an information base to form a set of stored data based on said operational specification; and at least one aggregation module which, when executed with said processor causes said processor to aggregate said stored data to form a set of trending data by performing at least one arithmetic operation on said stored data, wherein said arithmetic operation specified by said operational specification. 13. The computer system as recited in claim 12, wherein said operational specification is defined in an Extensible Markup Language (XML) file. 14. The computer system as recited in claim 12, wherein said operational specification includes a scheduler section to direct said network management configuration to perform said querying step at a preset point in time. 15. The computer system as recited in claim 12, wherein said operational specification defines a network communication protocol for querying each of said specific network devices. 16. The computer system as recited in claim 12, wherein said transformation module comprises logic which, when executed, causes performing at least one arithmetic transformation on said acquired data, wherein said arithmetic transformation is specified by said operational specification. 17. The computer system as recited in claim 12, wherein said configuration file further comprises a monitor module that comprises logic which, when executed with said processor, causes monitoring of said acquired data, said transformed data and said stored data for compliance with at least one threshold criterion value specified by said operational specification. 18. The computer system as recited in claim 17, wherein said configuration file further comprises a module that comprises logic which, when executed with said processor, causes said processor to generate a notification when any of said acquired data, said transformed data and said stored data complies with said threshold criterion. 19. The computer system as recited in claim 12, wherein said configuration file further comprises a module that comprises logic which, when executed with said processor, causes said processor to aggregate said stored data to form a set of trending data with performing at least one arithmetic aggregation on said stored data, wherein said arithmetic aggregation is specified by said operational specification. 20. The computer system as recited in claim 12, wherein said configuration file further comprises a module that comprises logic which, when executed with said processor causes said processor to remove a quantity of said stored data from said information base in accordance with information in said operational specification. 21. The computer system as recited in claim 12 wherein said computer system comprises a network infrastructure device. 22. The computer system as recited in claim 21 wherein said network infrastructure device comprises a network management device. 23. The computer system as recited in claim 12 wherein said processor is programmed to function with a collector module that comprises logic which, when executed with said processor, gathers said data from said network devices. 24. The computer system as recited in claim 23 wherein said processor is programmed to function with an aggregator module which, when executed with said processor, is operable for: selecting said data from said collector module; transforming said data into a form suitable for said managing; creating trending information from said data; and storing said trending information. 25. The computer system as recited in claim 24 wherein said selecting comprises a periodically performed operation of said processor. 26. The computer system as recited in claim 24 wherein said storing comprises an operation of said processor wherein said trending information is stored with a long term database. 27. The computer system as recited in claim 23 wherein said processor is programmed to function with logic which, when executed with said processor, is operable for discarding at least one of said data and said trending information based on said operational specification. 28. The computer system as recited in claim 27 wherein said processor is programmed to function with a reaper module which, when executed, performs said discarding. 29. The computer system as recited in claim 23 wherein said processor is programmed to function with logic which, when executed with said processor, is operable for displaying at least one of said data and said trending information. 30. The computer system as recited in claim 12 wherein said data is stored in at least one of a device database, a short term database and a long term database. 31. A computer implemented system, comprising: a configuration file which, when executed with said computer, causes data to be acquired, based on a user-definable operational specification, from a specific plurality of network devices on a network with which said computer is interfaced; a collector module coupled to said configuration file which, when executed with said computer, queries said network devices for data to form a set of acquired data based on said operational specification; an aggregator module coupled to said configuration file which, when executed with said computer, causes said acquired data to be transformed into a set of transformed data based on said operational specification; and storage coupled to at least one of said collector module and said aggregator, which stores said transformed data to store to an information base that comprises a set of stored data based on said operational specification wherein said aggregator module, when further executed with said computer, forms a set of trending data with performing at least one arithmetic operation on said stored data, wherein said arithmetic operation specified by said operational specification. 32. The computer implemented system as recited in claim 31, wherein said operational specification is defined in an Extensible Markup Language (XML) file. 33. The computer implemented system as recited in claim 31, wherein said operational specification includes a scheduler section to direct said network management configuration to perform said querying step at a preset point in time. 34. The computer implemented system as recited in claim 31, wherein said operational specification defines a network communication protocol for querying each of said specific network devices. 35. The computer implemented system as recited in claim 31, wherein said aggregator module comprises logic which, when executed, causes performing said arithmetic transformation on said acquired data. 36. The computer implemented system as recited in claim 35, wherein said aggregator module functions with monitor logic which, when executed with said computer, monitors said acquired data, said transformed data and said stored data for compliance with at least one threshold criterion value specified by said operational specification. 37. The computer implemented system as recited in claim 36, wherein said monitor logic causes said processor to generate a notification when any of said acquired data, said transformed data and said stored data complies with said threshold criterion. 38. The computer implemented system as recited in claim 31, further comprising a reaper module coupled to said configuration file which, when executed with said computer, removes a quantity of said stored data from said information base in accordance with information in said operational specification. 39. The computer implemented system as recited in claim 31, further comprising a display module coupled to said configuration file which, when executed with said computer, allows display of at least one of said data and said trending information. 40. The computer implemented system as recited in claim 31 wherein said computer comprises a network infrastructure device. 41. The computer implemented system as recited in claim 40 wherein said network infrastructure device comprises a network management device.
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이 특허에 인용된 특허 (180)
Benvenuto Nevio (Venezia NJ ITX) Bertocci Guido (Neptune NJ), ADPCM coder-decoder including partial band energy transition detection.
Aznar Ange (Saint Laurent du Var FRX) Calvignac Jean (La Gaude FRX) Orsatti Daniel (Cagnes Sur Mer FRX) Rigal Dominique (Nice FRX) Verplanken Fabrice (La Gaude FRX), ATM cell multicasting method and apparatus.
Hiller Thomas L. (Glen Ellyn IL) Spanke Ronald A. (Wheaton IL) Stanaway ; Jr. John J. (Wheaton IL) Wierzbicki Alex L. (Bolingbrook IL) Zola Meyer J. (Oak Park IL), ATM distribution networks for narrow band communications.
Hiller Thomas L. (Glen Ellyn IL) Spanke Ronald A. (Wheaton IL) Stanaway ; Jr. John J. (Wheaton IL) Wierzbicki Alex L. (Bolingbrook IL) Zola Meyer J. (Oak Park IL), ATM networks for narrow band communications.
Hiller Thomas L. (Glen Ellyn IL) Spanke Ronald A. (Wheaton IL) Stanaway ; Jr. John J. (Wheaton IL) Wierzbicki Alex L. (Bolingbrook IL) Zola Meyer J. (Oak Park IL), Access switches for large ATM networks.
White Richard E. (2591 College Hill Cir. Schaumburg IL 60193) Buchholz Dale R. (1441 E. Anderson Palatine IL 60067) Freeburg Thomas A. (416 N. Belmont Ave. Arlington Heights IL 60004) Chang Hungkun J, Addressing technique for storing and referencing packet data.
Videlock Gary B. (Foxborough MA) Gocht Russell C. (North Attleboro MA) Freitas AnneMarie (E. Walpole MA) Freitas Mark J. (E. Walpole MA), Apparatus and method for learning and filtering destination and source addresses in a local area network system.
Wilford Bruce A. (Los Altos CA) Sherry Bruce (Woodinville WA) Tsiang David (Menlo Park CA) Li Anthony (Sunnyvale CA), Apparatus and method for switching packets using tree memory.
Hiller Thomas L. (Glen Ellyn IL) Phelan James J. (Downers Grove IL) Zola Meyer J. (Oak Park IL), Apparatus for interfacing between telecommunications call signals and broadband signals.
Belove Edward (Cambridge MA) Johnson R. Patrick (Manchester MA) Leland ; III O. Stevens (Hudson MA) Mendez Deborah (Malden MA) Zagieboylo Stephen (Norfolk MA), Apparatus using circuit manager to associate a single circuit with each host application where the circuit is shared by.
Joy Andrew K. (Northampton GB2) Jager Michael D. (Surrey GB2) Pickering Andrew J. (Warwickshire GB2) Oakley Raymond E. (Northants GB2) Arnold John S. (Northants GB2), Asynchronous time division switching arrangement and a method of operating same.
Sathe Shirish K. (Cupertino CA) Corbalis Charles M. (Saratoga CA) Schmidt Uri (Azor ILX) Moley Richard M. (Saratoga CA), Asynchronous transfer mode communication in inverse multiplexing over multiple communication links.
Corbalis Charles M. (Saratoga CA) Heitkamp Ross S. (Mountain View CA) Gomez Rafael (Sunnyvale CA), Bandwidth and congestion control for queue channels in a cell switching communication controller.
Buhrke Rolfe E. (Westchester IL) Dianda Robert B. (Wheaton IL) Punj Vikram (Naperville IL) Spanke Ronald A. (Wheaton IL) Stevens Nancy S. (Silver Spring MD), Bandwidth and congestion management in accessing broadband ISDN networks.
Bostica Bruno (Pino ITX) Daniele Antonella (Bareggio ITX) Vercellone Vinicio (Venaria ITX), Basic element for the connection network of a fast packet switching node.
Bryant David B. (Raleigh NC) Cossack Mark A. (Rochester MN) Frett Dennis J. (Rochester MN) Himwich Harold A. (Raleigh NC) Huynh Lap T. (Raleigh NC) McGinn John E. (Rochester MN), Border node having routing and functional capability in a first network and only local address capability in a second ne.
Balzano Jean-Michel (Perros-Guirec FRX) Noslier Yvon (Lannion FRX), Bridge for connecting an IEEE 802.3 local area network to an asynchronous time-division multiplex telecommunication netw.
Heitkamp Ross S. (Mountain View CA) Corbalis Charles M. (Saratoga CA) Bedell William N. (Cupertino CA) Enns Frederick R. (Menlo Park CA) Gupta Amar S. (Cupertino CA) Weisbloom John D. (Campbell CA), Broadband switching fabric in a communication controller.
Rudrapatna Ashok N. (Basking Ridge NJ) Jaisingh Gopal K. (Montville NJ) Miller ; II Robert R. (Morris Township ; Morris County NJ) Russell Jesse E. (Piscataway NJ) Schroeder Robert E. (Morris Townshi, Broadband wireless system and network architecture providing broadband/narrowband service with optimal static and dynami.
Ferenc James J. (Boulder CO) Goke Louis R. (Austin TX) Grimes Gary J. (Thornton CO) Moffitt Bryan S. (Redbank NJ), Building-block architecture of a multi-node circuit-and packet-switching system.
Corbalis Charles M. (Milpitas CA) Bustini Lionel A. (Campbell CA) Daley Patrick D. (Belmont CA), Circuitry and method for fair queuing and servicing cell traffic using hopcounts and traffic classes.
Flores Christopher (Berkeley CA) Gopinath Bhaskarpillai (Berkeley Heights NJ) Limb John O. (Berkeley Heights NJ), Collision avoiding system and protocol for a two path multiple access digital communications system.
Baugh Charles R. (Lincroft NJ) Smith Robert M. (Holmdel NJ), Communication line interface for controlling data information having differing transmission characteristics.
Arpin Lee J. (Middletown NJ) Jurgensen Dennis D. (Belford NJ) Woo Philip W. (Somerville NJ), Communication system having automatic circuit board initialization capability.
Jennings William E. (Cary NC) Chan Roland G. (Mountain View CA) Wong John L. (Belmont CA), Computer system with cascaded peripheral component interconnect (PCI) buses.
Lyles Joseph B. (Mountain View CA), Copy network providing multicast capabilities in a broadband ISDN fast packet switch suitable for use in a local area ne.
Chiappa J. Noel (708 E. Woodland Dr. Grafton VA 23692), Data packet switch using a primary processing unit to designate one of a plurality of data stream control circuits to se.
Gordon Travis H. (Madison NJ) Simon Steven D. (Middletown NJ) Sorrentino Robert (Middletown NJ), Dial-up telephone network equipment for requesting an identified selection.
Jones William C. (Wheaton IL) Kalbow Wayne R. (Glen Ellyn IL) Larsen Eric T. (Glen Ellyn IL) Mazur Elizabeth M. (Oswego IL), Enhanced privacy feature for telephone systems.
Hiller Thomas L. (Glen Ellyn IL) Phelan James J. (Downers Grove IL) Zola Meyer J. (Oak Park IL), Establishing telecommunications call paths between clustered switching entities.
Hiller Thomas L. (Glen Ellyn IL) Phelan James J. (Downers Grove IL) Zola Meyer J. (Oak Park IL), Establishing telecommunications call paths in broadband communication networks.
Hiller Thomas L. (Glen Ellyn IL) Phelan James J. (Downers Grove IL) Zola Meyer J. (Oak Park IL), Establishing telecommunications calls in a broadband network.
Corbalis Charles M. (Saratoga CA) Heitkamp Ross S. (Mountain View CA) Wu Mike M. (Fremont CA) Gupta Amar (Cupertino CA), Flexible destination address mapping mechanism in a cell switching communication controller.
Klausmeier Daniel E. (Sunnyvale CA) Corbalis Charles M. (Saratoga CA) Hooshmand Kambiz (Santa Clara CA), Frame based traffic policing for a digital switch.
McHarg Christopher G. (Winfield IL) Newman Thomas E. (Wheaton IL) Schaff Kenneth N. (Warrenville IL) Wendland Kenneth E. (St. Charles IL), High bandwidth packet switch.
Gagliardi Ugo O. (5 Manor Pkwy. Salem NH 03079) Hsu Meichun (5 Manor Pkwy. Salem NH 03079) Cummings Paul (53 Lawndale St. Belmont MA 02178) Mattin Stephen A. (5 Manor Pkwy. Salem NH 03079), ISDN interfacing of local area networks.
Hiller Thomas L. (Glen Ellyn IL) Spanke Ronald A. (Wheaton IL) Stanaway ; Jr. John J. (Wheaton IL) Wierzbicki Alex L. (Bolingbrook IL) Zola Meyer J. (Oak Park IL), Inter-cell switching unit for narrow band ATM networks.
Doeringer Willibald (Langnau am Albis CHX) Dykeman Douglas (Rueschlikon NC CHX) Edwards Allan K. (Raleigh NC) Pozefsky Diane P. (Chapel Hill NC) Sarkar Soumitra (Cary NC) Turner Roger D. (Cary NC), Inter-domain multicast routing.
Hiller Thomas L. (Glen Ellyn IL) Spanke Ronald A. (Wheaton IL) Stanaway ; Jr. John J. (Wheaton IL) Wierzbicki Alex L. (Bolingbrook IL) Zola Meyer J. (Oak Park IL), Intra-switch communications in narrow band ATM networks.
Ciscon Larry A. (Houston TX) Wise ; Jr. James D. (Houston TX) Johnson Don H. (Houston TX), Managing and distributing data objects of different types between computers connected to a network.
Crowther William R. (Lincoln MA) Lackey ; Jr. Stanley A. (Groton MA) Levin C. Philip (Malden MA) Tappan Daniel C. (Boxboro MA), Message header classifier.
Heath Chester A. (Boca Raton FL) Langgood John K. (Boca Raton FL) Valli Ronald E. (Pittsburgh PA), Method and apparatus for automatic initialization of pluggable option cards.
Hendel Ariel (Ronkonkoma NY) Brinkerhoff Kenneth W. (Hauppauge NY), Method and apparatus for buffering data within stations of a communication network.
Daniel Arthur A. (Rochester MN) Moore Robert E. (Durham NC) Anderson Catherine J. (Raleigh NC) Gelm Thomas J. (Raleigh NC) Kiter Raymond F. (Poughkeepsie NY) Meeham John P. (Raleigh NC) Stevenson Joh, Method and apparatus for communication network alert message construction.
Hahne Ellen L. (Westfield NJ) Kalmanek Charles R. (Hoboken NJ) Morgan Samuel P. (Morris Township ; Morris County NJ), Method and apparatus for congestion control in a data network.
Herrig Hanz W. (Aurora IL) Horn David N. (Rumson NJ) Peters Daniel V. (Warrenville IL) Pfeifer Randy D. (Warrenville IL) Wilcox Wayne R. (Naperville IL), Method and apparatus for controlled removal and insertion of circuit modules.
Bingham John A. C. (Palo Alto CA), Method and apparatus for correcting for clock and carrier frequency offset, and phase jitter in multicarrier modems.
Saxe James B. (Palo Alto CA), Method and apparatus for generating and implementing smooth schedules for forwarding data flows across cell-based switch.
Attanasio Clement R. (Peekskill NY) Smith Stephen E. (Mahopac NY), Method and apparatus for making a cluster of computers appear as a single host on a network.
Mazzola Mario (San Jose CA) Cafiero Luca (Palo Alto CA) DeNicolo Maurilio (Sunnyvale CA), Method and apparatus for multilevel encoding for a local area network.
Chao Hung-Hsiang J. (Madison NJ) Lee Sang H. (Bridgewater NJ) Wu Liang T. (Gladstone NJ), Method and apparatus for multiplexing circuit and packet traffic.
Kasprzyk Marlon Z. (Carol Stream IL) Wolfe ; Jr. Paul K. (Naperville IL), Method and apparatus for providing local area network clients with internetwork identification data.
Sawant Shiva (Santa Clara CA) Chatwani Dilip (Newark CA) Chiang Winnis (Los Altos Hills CA) Davar Jonathan (San Jose CA) Opher Ayal (Mountain View CA) Subramanian Rajan (Newark CA), Method and apparatus providing for bootstrapping of switches in an ATM network or the like.
Moore Victor S. (Delray Beach FL) Van Duren Richard G. (Big Torch Key FL) Wu David C. (Boca Raton FL), Method and system for maintaining routing between mobile workstations and selected network workstation using routing tab.
Christensen Kenneth J. (Apex NC) Siegel Michael S. (Raleigh NC) Strole Norman C. (Raleigh NC) Zeisz ; Jr. Raymond L. (Raleigh NC), Method and system in a local area network switch for dynamically changing operating modes.
Cidon Israel (Haifa NY ILX) Gopal Inder S. (New York NY) Guerin Roch A. (Yorktown Heights NY), Method and system of requesting resources in a packet-switched network with minimal latency.
Cheriton David R. ; Bechtolsheim Andreas V., Method for traffic management, traffic prioritization, access control, and packet forwarding in a datagram computer network.
Green Patrick (Los Altos CA) Runaldue Thomas Jefferson (San Jose CA) Bianchini ; Jr. Ronald (Pittsburgh PA), Method of and system for pre-fetching input cells in ATM switch.
Arrowood Andrew H. (Raleigh NC) Baratz Alan E. (Chappaqua NY) Chimento ; Jr. Philip F. (Durham NC) Drake ; Jr. John E. (Pittsboro NC) Eisenbies John L. (Raleigh NC) Gray James P. (Chapel Hill NC) Nor, Method of maintaining a topology database.
Holden Brian D. (Half Moon Bay CA) Presuhn Randall M. (Campbell CA) Robertson William L. (San Jose CA), Microprocessor based packet isochronous clocking transmission system and method.
Decker Dwight W. (Cupertino CA) Anwyl Gary A. (Palo Alto CA) Dankberg Mark D. (Encinitas CA) Miller Mark J. (Vista CA) Hart Stephen R. (Encinitas CA) Jaska Kristi A. (Encinitas CA), Multi-channel trellis encoder/decoder.
Bronte Jeffery S. (San Diego CA) Lever Mark J. (San Diego CA) Pope Kevin T. (Poway CA) Hartmann Paul R. (Escondido CA), Multichannel alignment system and method.
Port Adrian G. (Lansdale PA) Spackman Charles D. (Chester Springs PA) Steele Nicholas R. (Nrnberg DEX) Wells Jonathan R. (Victoria AUX), Network architecture suitable for multicasting and resource locking.
Dobbins Kurt (Bedford NH) Andlauer Phil (Londonderry NH) Oliver Chris (Rochester NH) Parker Tom (Merrimack NH) Grimes Andy (Cape Neddick ME) Nutbrown Bruce (Campton NH) Hullette Dan (Wilton NH) Dev R, Network having secure fast packet switching and guaranteed quality of service.
Nagami Kenichi,JPX ; Ami Junko,JPX ; Katsube Yasuhiro,JPX ; Saito Takeshi,JPX ; Esaki Hiroshi,JPX, Network interconnection apparatus, network node apparatus, and packet transfer method for high speed, large capacity in.
Valizadeh Homayoun S. (San Ramon CA) Grandhi Madhu R. (Fremont CA), Network switch having network management agent functions distributed among multiple trunk and service modules.
Morrison John A. ; Ramakrishnan Kajamalai Goplaswamy ; Mitra Debasis, Optimization method for routing and logical network design in multi-service networks.
Eckberg ; Jr. Adrian E. (Holmdel NJ) Luan Daniel T. (East Brunswick NJ) Lucantoni David M. (Eatontown NJ) Schonfeld Tibor J. (Livingston NJ), Packet switching system arranged for congestion control.
Eckberg ; Jr. Adrian E. (Holmdel NJ) Luan Daniel T. (East Brunswick NJ) Lucantoni David M. (Eatontown NJ) Schonfeld Tibor J. (Livingston NJ), Packet switching system arranged for congestion control through bandwidth management.
Holden Brian D. (Half Moon Bay CA) Presuhn Randall M. (Campbell CA) Robertson William L. (San Jose CA) Schultz Gaymond W. (Los Altos CA), Packet voice/data communication system having protocol independent repetitive packet suppression.
Davis Gordon T. (Boca Raton FL) Ho Lung Michael G. (Boca Raton FL) Mandalia Baiju D. (Boca Raton FL) Millas Roland J. (Coral Gables FL) Ortega Oscar E. (Miami FL) Picon Rafael J. (Boca Raton FL) Quee, Real-time digital signal processing relative to multiple digital communication channels.
Opher Ayal (Mountain View CA) Garg Gaurav (Mountain View CA) Kruzinski Philip (Redwood City CA) Sikdar Som (San Jose CA), Routing device utilizing an ATM switch as a multi-channel backplane in a communication network.
Gupta Dev V. (Flemington NJ) Chen Yu-Ren B. (Somerville NJ) Sharper Craig A. (Los Altos CA) Stone Alan E. (Morristown NJ), Scalable multimedia network.
Gupta Dev Vrat (Flemington NJ) Chen Yu-Ren Brian (Somerville NJ) Sharper Craig A. (Los Altos CA) Stone Alan E. (Morristown NJ), Scalable multimedia network.
Decker Dwight W. (Cupertino CA) Freret Payne (Los Altos CA) Hughes-Hartogs Dirk (Morgan Hill CA) Flowers Mark B. (Mountain View CA) Mueller Frederick L. (Palo Alto CA), Speech and data multiplexor optimized for use over impaired and bandwidth restricted analog channels.
Baran Paul (Menlo Park CA) Corbalis Charles M. (San Jose CA) Holden Brian D. (Half Moon Bay CA) Masatsugu Jon K. (Mountain View CA) Marggraff Lewis J. (Mountain View CA) Owen David P. (Palo Alto CA) , Synchoronous packet voice/data communication system.
Baran Paul (Menlo Park CA) Corbalis Charles M. (San Jose CA) Holden Brian D. (Half Moon Bay CA) Masatsugu Jon K. (Mountain View CA) Marggraff Lewis J. (Mountain View CA) Owen David P. (Palo Alto CA) , Synchronous packet voice/data communication system.
Baran Paul (Menlo Park CA) Corbalis Charles M. (San Jose CA) Holden Brian D. (Half Moon Bay CA) Masatsugu Jon K. (Mountain View CA) Marggraff Lewis J. (Mountain View CA) Owen David P. (Palo Alto CA) , Synchronous packet voice/data communication system.
Cherukuri Rao J. (Chapel Hill NC) Lai Fuyung (Raleigh NC) Sy Kian-Bon K. (Cary NC), System and method for controlling LAN data flow control through a frame relay network by end point station transmitting.
Abensour Daniel S. (Cary NC) Fox Jon E. (Cary NC) Joshi Mahendra J. (Raleigh NC) Lai Fuyung (Raleigh NC) Sy Kian-Bon K. (Cary NC), System and method for providing ATM support for frame relay DTEs with a terminal adapter.
Parikh Bipin D. (Cambridge OH) Patnaik Haresh C. (Cambridge OH) Patel Bhagubhai K. (Cambridge OH) Dharia Prabodh M. (Des Plaines IL) Kurtz John J. (Cambridge OH) Jenkins Alfred D. (Cambridge OH) Maha, System for controlling synchronization in a digital communication system.
Sladowski Robert (Charlotte NC) Wenz David G. (Rochester MN) Youngers David N. (Rochester MN), System for providing context-sensitive on-line documentation in a data processor.
Nilakantan Chandrasekharan (San Jose CA) Loi Ly (Fremont CA) Arunkumar Nagaraj (San Jose CA) Seaman Michael J. (San Jose CA), System for reverse address resolution for remote network device independent of its physical address.
Devault Michel (22 ; rue de Bourgogne Lannion FRX 22300) Quinquis Jean-Paul (Rue de Cornic Perros Quirec FRX 22700) Rouaud Yvon (Les Fontaines A. 33 Lannion FRX 22300), Time division multiplex switching network for multiservice digital networks.
Lidinsky William P. (Naperville IL) Roediger Gary A. (Downers Grove IL) Steele Scott B. (Naperville IL) Weddige Ronald C. (Western Springs IL), User to network interface protocol for packet communications networks.
Daines Bernard N. (Union City CA) Birenbaum Lazar (Saratoga CA) Hausman Richard J. (Soquel CA), Variable latency cut through bridge for forwarding packets in response to user\s manual adjustment of variable latency t.
Hyman, Jacob A.; Gerber, Marcel; Frias, Kristen R.; Breen, Jr., Anthony A.; Niles Peretz, Samuel R.; Tirrella, Terence M., Method and system for mass production of variable shaped products.
Talpade, Rajesh R.; Bahler, Lisa; Cheng, Alice; Poylisher, Alexander; Gadgil, Shrirang, System for extracting and combining information from IP device configurations, inventory systems, and real-time network monitoring.
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