A framework for evaluating network optimization techniques

Ossama Younis; Andrei Ghetie; Sharanya Eswaran; Noam Goldberg; Sunil Samtani; Maneesh Varshney; Mitesh Patel

doi:10.1109/sarnof.2012.6222712

A framework for evaluating network optimization techniques

Ossama Younis, Andrei Ghetie, Sharanya Eswaran, Noam Goldberg, Sunil Samtani, Maneesh Varshney, Mitesh Patel

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

There is little understanding about how network applications can benefit from mathematical/heuristic optimization techniques, such as cross-layer design. We propose CLASS, a component-based framework for evaluating and comparing network optimization techniques, such as cross-layer design. CLASS uniquely integrates network optimization with high-fidelity simulation to provide an optimize-and-verify loop to network designers. Within CLASS framework, we propose two optimization algorithms. One algorithm (ROCA) jointly optimizes routing and channel assignment for cognitive-radio networks. The other algorithm (Flow-Aware Routing or FAR) jointly optimizes routes and MAC schedules in single-channel networks. Both algorithms exploit spatial diversity by reusing channels or slots. We discuss the benefits and applicability of both algorithms in the context of surveillance applications.

Original language	English
Title of host publication	35th IEEE Sarnoff Symposium, SARNOFF 2012 - Conference Proceedings
DOIs	https://doi.org/10.1109/sarnof.2012.6222712
State	Published - 2012
Externally published	Yes
Event	35th IEEE Sarnoff Symposium, SARNOFF 2012 - Newark, NJ, United States Duration: 21 May 2012 → 22 May 2012

Publication series

Name	35th IEEE Sarnoff Symposium, SARNOFF 2012 - Conference Proceedings

Conference

Conference	35th IEEE Sarnoff Symposium, SARNOFF 2012
Country/Territory	United States
City	Newark, NJ
Period	21/05/12 → 22/05/12

Keywords

MANET design
TDMA scheduling
channel assignment
cross-layer design
evaluation framework
routing

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10.1109/sarnof.2012.6222712

Cite this

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title = "A framework for evaluating network optimization techniques",

abstract = "There is little understanding about how network applications can benefit from mathematical/heuristic optimization techniques, such as cross-layer design. We propose CLASS, a component-based framework for evaluating and comparing network optimization techniques, such as cross-layer design. CLASS uniquely integrates network optimization with high-fidelity simulation to provide an optimize-and-verify loop to network designers. Within CLASS framework, we propose two optimization algorithms. One algorithm (ROCA) jointly optimizes routing and channel assignment for cognitive-radio networks. The other algorithm (Flow-Aware Routing or FAR) jointly optimizes routes and MAC schedules in single-channel networks. Both algorithms exploit spatial diversity by reusing channels or slots. We discuss the benefits and applicability of both algorithms in the context of surveillance applications.",

keywords = "MANET design, TDMA scheduling, channel assignment, cross-layer design, evaluation framework, routing",

author = "Ossama Younis and Andrei Ghetie and Sharanya Eswaran and Noam Goldberg and Sunil Samtani and Maneesh Varshney and Mitesh Patel",

year = "2012",

doi = "10.1109/sarnof.2012.6222712",

language = "אנגלית",

isbn = "9781467314640",

series = "35th IEEE Sarnoff Symposium, SARNOFF 2012 - Conference Proceedings",

booktitle = "35th IEEE Sarnoff Symposium, SARNOFF 2012 - Conference Proceedings",

note = "35th IEEE Sarnoff Symposium, SARNOFF 2012 ; Conference date: 21-05-2012 Through 22-05-2012",

}

Younis, O, Ghetie, A, Eswaran, S, Goldberg, N, Samtani, S, Varshney, M & Patel, M 2012, A framework for evaluating network optimization techniques. in 35th IEEE Sarnoff Symposium, SARNOFF 2012 - Conference Proceedings., 6222712, 35th IEEE Sarnoff Symposium, SARNOFF 2012 - Conference Proceedings, 35th IEEE Sarnoff Symposium, SARNOFF 2012, Newark, NJ, United States, 21/05/12. https://doi.org/10.1109/sarnof.2012.6222712

A framework for evaluating network optimization techniques. / Younis, Ossama; Ghetie, Andrei; Eswaran, Sharanya et al.
35th IEEE Sarnoff Symposium, SARNOFF 2012 - Conference Proceedings. 2012. 6222712 (35th IEEE Sarnoff Symposium, SARNOFF 2012 - Conference Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Younis, Ossama

AU - Ghetie, Andrei

AU - Eswaran, Sharanya

AU - Goldberg, Noam

AU - Samtani, Sunil

AU - Varshney, Maneesh

AU - Patel, Mitesh

PY - 2012

Y1 - 2012

N2 - There is little understanding about how network applications can benefit from mathematical/heuristic optimization techniques, such as cross-layer design. We propose CLASS, a component-based framework for evaluating and comparing network optimization techniques, such as cross-layer design. CLASS uniquely integrates network optimization with high-fidelity simulation to provide an optimize-and-verify loop to network designers. Within CLASS framework, we propose two optimization algorithms. One algorithm (ROCA) jointly optimizes routing and channel assignment for cognitive-radio networks. The other algorithm (Flow-Aware Routing or FAR) jointly optimizes routes and MAC schedules in single-channel networks. Both algorithms exploit spatial diversity by reusing channels or slots. We discuss the benefits and applicability of both algorithms in the context of surveillance applications.

AB - There is little understanding about how network applications can benefit from mathematical/heuristic optimization techniques, such as cross-layer design. We propose CLASS, a component-based framework for evaluating and comparing network optimization techniques, such as cross-layer design. CLASS uniquely integrates network optimization with high-fidelity simulation to provide an optimize-and-verify loop to network designers. Within CLASS framework, we propose two optimization algorithms. One algorithm (ROCA) jointly optimizes routing and channel assignment for cognitive-radio networks. The other algorithm (Flow-Aware Routing or FAR) jointly optimizes routes and MAC schedules in single-channel networks. Both algorithms exploit spatial diversity by reusing channels or slots. We discuss the benefits and applicability of both algorithms in the context of surveillance applications.

KW - MANET design

KW - TDMA scheduling

KW - channel assignment

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KW - evaluation framework

KW - routing

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ER -

A framework for evaluating network optimization techniques

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