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Kari T Teraslinna

from Boulder, CO
Age ~70
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Also known as:
Kari U Teraslinna, Kari M Teraslinna, Karl Teraslinna
Phone and address:
603 Lykins Ave, Boulder, CO 80304
(303) 718-9745
Related to:
Ellen L Ryan, 64Chloe Parent TeraslinnaChloe Jin Teraslinna, 29Karl T Teraslinna
Connected to:
Anita C Terauds, 91Erica L Terault, 39Ned Terault, 85Marcus Teraun, 35Michelle M Teravainen, 49Raymond K Terawaki, 41Gaye F Terayama, 65Caroline Terazawa, 39Marvin I Terban, 84Kathryn J Terbeek, 69

Kari Teraslinna Phones & Addresses

  • 603 Lykins Ave, Boulder, CO 80304 (303) 718-9745
  • 319 S Peak Rd, Boulder, CO 80302
  • 1908 Turtle Creek Way, Petaluma, CA 94954
  • Naperville, IL
  • 603 Lykins Ave, Boulder, CO 80304 (707) 778-8206

Work

Company: Emsc Nov 2016 Position: Ski coach

Education

Degree: Master of Science, Masters School / High School: Northwestern University Specialities: Electronics Engineering

Skills

Switches • Networking • Systems Engineering • Telecommunications • Network Architecture • Voip • Software Development • Network Design • System Architecture • Atm Networks • Frame Relay • Hardware

Industries

Telecommunications

Resumes

Resumes

Kari Teraslinna Photo 1

Ski Coach

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Location:
Boulder, CO
Industry:
Telecommunications
Work:
Emsc
Ski Coach
Centurylink 2006 - 2011
Senior Staff Engineer - Network Architecture - Voip
Dell 2000 - 2006
Senior Manager - Plm, System Engineering, Software
Centurylink 1992 - 2000
Distinguished Member of Technical Staff
Nokia Bell Labs 1978 - 1992
Member of Technical Staff
Education:
Northwestern University
Master of Science, Masters, Electronics Engineering
Skills:
Switches
Networking
Systems Engineering
Telecommunications
Network Architecture
Voip
Software Development
Network Design
System Architecture
Atm Networks
Frame Relay
Hardware

Publications

Us Patents

System And Method For Remote Traffic Management In A Communication Network

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US Patent:
7065569, Jun 20, 2006
Filed:
Jan 9, 2001
Appl. No.:
09/764486
Inventors:
Kari T. Teraslinna - Petaluma CA, US
Assignee:
Turin Networks, Inc. - Petaluma CA
International Classification:
G06F 15/173
US Classification:
709223, 3702301, 370230
Abstract:
A traffic manager to manage flows to a plurality of remote physical ports. The traffic manager employs two tiers of shaping and scheduling driven by performance characteristics of the remote physical ports. By modeling the remote physical ports within the traffic manager, flows to the physical ports can be controlled to arrive at a rate the physical ports can handle. Any backup that would otherwise occur in the queue at the physical ports is instead queued in the traffic manager. In this manner, the intelligence of the traffic manager can be leveraged to provide improved quality of service with existing infrastructure.

System And Method For Remote Traffic Management In A Communication Network

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US Patent:
7523188, Apr 21, 2009
Filed:
Dec 1, 2005
Appl. No.:
11/292854
Inventors:
Kari T. Teraslinna - Petaluma CA, US
Assignee:
Turin Networks, Inc. - Petaluma CA
International Classification:
G06F 15/173
US Classification:
709223, 709238, 3702301
Abstract:
A traffic manager to manage flows to a plurality of remote physical ports. The traffic manager employs two tiers of shaping and scheduling driven by performance characteristics of the remote physical ports. By modeling the remote physical ports within the traffic manager, flows to the physical ports can be controlled to arrive at a rate the physical ports can handle. Any backup that would otherwise occur in the queue at the physical ports is instead queued in the traffic manager. In this manner, the intelligence of the traffic manager can be leveraged to provide improved quality of service with existing infrastructure.

Packet Switching Network For Multiple Packet Types

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US Patent:
50017020, Mar 19, 1991
Filed:
Sep 26, 1989
Appl. No.:
7/412725
Inventors:
Kari T. Teraslinna - Naperville IL
Wing N. Toy - Glen Ellyn IL
Assignee:
AT&T Bell Laboratories - Murray Hill NJ
International Classification:
H04J 326
US Classification:
370 60
Abstract:
A packet switching arrangement for receiving packets including broadcast addresses and connecting representations of the received packets to any combination of output ports specified in the address is disclosed. The packet routing units of the network both generate packet representations and selectively connect the representations to downstream routing units or network outputs. Packets for use with the network comprise an address portion encoded in a broadcast format or in a shorter point-to-point format and an address type character identifying the type of address in the address portion. The nodes of the network respond to the address type character of a received packet by selecting the appropriate decoding format for the packet address portion. A packet select unit decodes the address portion in accordance with the selected decoding format and selectively connects the packet to the network outputs.

Methods And Systems For Managing Bandwidth Resources In A Fast Packet Switching Network

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US Patent:
56234929, Apr 22, 1997
Filed:
Mar 24, 1995
Appl. No.:
8/410369
Inventors:
Kari Teraslinna - Boulder CO
Assignee:
U S West Technologies, Inc. - Boulder CO
International Classification:
H04J 324
US Classification:
370397
Abstract:
Methods and systems for resource management in a fast packet switching communication network are disclosed. A packet containing an address field identifying a source endpoint and a destination endpoint is received. A bandwidth constraint based upon the source endpoint, but independent of the destination endpoint, is enforced for the packet. In a communication network wherein a plurality of virtual connections are provisioned from a single source endpoint to a plurality of destination endpoints, the bandwidth constraint is associated with bandwidth usage over all of the virtual connections.

N+K Sparing In A Telecommunications Switching Environment

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US Patent:
53316312, Jul 19, 1994
Filed:
Mar 16, 1993
Appl. No.:
8/033197
Inventors:
Kari T. Teraslinna - Boulder CO
Assignee:
AT&T Bell Laboratories - Murray Hill NJ
International Classification:
H04L 1256
US Classification:
370 60
Abstract:
An N+1 sparing strategy for both line circuits and switching nodes of a self-routing 3-stage Benes packet telecommunications network. Line circuits selectively serve either their own telecommunications line or the line normally served by the corresponding line circuit of the preceding row of the switching matrix. A row of spare line circuits and switching nodes is provided. Upon failure of a matrix internal node, line circuits modify packet addresses to reroute packets normally served by the failed node, or nodes below it within the same switching stage, to the next-lower row. Upon failure of a matrix edge node, line circuits of the failed node's row are disabled and line circuits of each row below it commence to serve the lines normally served by the preceding row. Active line circuits also modify packet addresses to reroute packets normally served by the last-stage node of the failed node's row, or rows below it, to the next-lower row. Upon failure of a line circuit, it is disabled and corresponding line circuits of each row below it commence to serve the lines normally served by the corresponding line circuit of the preceding row.

N+K Sparing In A Telecommunications Switching Environment

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US Patent:
52299902, Jul 20, 1993
Filed:
Oct 3, 1990
Appl. No.:
7/592103
Inventors:
Kari T. Teraslinna - Naperville IL
Assignee:
AT&T Bell Laboratories - Murray Hill NJ
International Classification:
H04J 326
H04L 1256
US Classification:
370 60
Abstract:
An N+1 sparing strategy for both line circuits and switching nodes of a self-routing 3-stage Benes packet telecommunications network. Line circuits selectively serve either their own telecommunications line or the line normally served by the corresponding line circuit of the preceding row of the switching matrix. A row of spare line circuits and switching nodes is provided. Upon failure of a matrix internal node, line circuits modify packet addresses to reroute packets normally served by the failed node, or nodes below it within the same switching stage, to the next-lower row. Upon failure of a matrix edge node, line circuits of the failed node's row are disabled and line circuits of each row below it commence to serve the lines normally served by the preceding row. Active line circuits also modify packet addresses to reroute packets normally served by the last-stage node of the failed node's row, or rows below it, to the next-lower row. Upon failure of a line circuit, it is disabled and corresponding line circuits of each row below it commence to serve the lines normally served by the corresponding line circuit of the preceding row.

Methods And Systems For Managing Bandwidth Resources In A Fast Packet Switching Network

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US Patent:
58125256, Sep 22, 1998
Filed:
Apr 10, 1997
Appl. No.:
8/827666
Inventors:
Kari Teraslinna - Boulder CO
Assignee:
U S West Technologies, Inc. - Boulder CO
International Classification:
H04L 1226
H04L 1256
US Classification:
370229
Abstract:
Methods and systems for resource management in a fast packet switching communication network are disclosed. A packet containing an address field identifying a source endpoint and a destination endpoint is received. A bandwidth constraint based upon the source endpoint, but independent of the destination endpoint, is enforced for the packet. In a communication network wherein a plurality of virtual connections are provisioned from a single source endpoint to a plurality of destination endpoints, the bandwidth constraint is associated with bandwidth usage over all of the virtual connections.

Methods And Systems For Managing Packet Flow Into A Fast Packet Switching Network

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US Patent:
57062790, Jan 6, 1998
Filed:
Feb 18, 1997
Appl. No.:
8/801543
Inventors:
Kari Teraslinna - Boulder CO
Assignee:
U S West Technologies, Inc. - Boulder CO
International Classification:
H04L 1226
H04L 1256
US Classification:
370232
Abstract:
Methods and systems for controlling a flow of packets being forwarded by a customer premises equipment to an endpoint of a fast packet switching network having a plurality of virtual connections provisioned from the endpoint to a plurality of destination endpoints. A parameter indicative of bandwidth usage associated with the endpoint over at least two of the virtual connections is obtained. The flow of packets being forwarded to the endpoint is inhibited when the parameter violates a predetermined threshold.
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Kari T Teraslinna from Boulder, CO, age ~70 Get Report