Golnaz Sahebi

Doctoral candidate, Embedded Electronics (Department of Future Technologies)
Doctoral student, Software Engineering (Department of Future Technologies)

golnaz.sahebi@utu.fi







Publications

NOMeS: Near-Optimal Metaheuristic Scheduling for MPSoCs (2018)Amin Majd, Masoud Daneshtalab, Juha Plosila, Nima Khalilzad, Golnaz Sahebi, Elena Troubitsyna
(
A4 Article in conference proceedings)

Optimizing Scheduling for Heterogeneous Computing Systems using Combinatorial Meta-heuristic Solution (2018)Amin Majd, Golnaz Sahebi, Masoud Daneshtalab, Elena Troubitsyna
(
A4 Article in conference proceedings)

Parallel Imperialist Competitive Algorithms (2018)
Concurrency and Computation: Practice and Experience
Amin Majd, Golnaz Sahebi, Masoud Daneshtalab, Juha Plosila, Shahriar Lotfi, Hannu Tenhunen
(
A1 Journal article – refereed)

A Reliable Weighted Feature Selection for Auto Medical Diagnosis (2017)Golnaz Sahebi, Amin Majd, Masoumeh Ebrahimi, Juha Plosila, Hannu Tenhunen
(
A4 Article in conference proceedings)

Hierarchal Placement of Smart Mobile Access Points in Wireless Sensor Networks using Fog Computing (2017)
Parallel, Distributed and Network-Based Processing
Majd A, Sahebi G, Daneshtalab M, Plosila J, Tenhunen H
(
A4 Article in conference proceedings)

Optimal Smart Mobile Access Point Placement for Maximal Coverage and Minimal Communication (2017)Amin Majd, Masoud Daneshtalab, Elena Troubitsyna, Golnaz Sahebi
(
A4 Article in conference proceedings)

Multi-Population Parallel Imperialist Competitive Algorithm for Solving Systems of Nonlinear Equations (2016)Majd A, Abdollahi M, Sahebi G, Abdollahi D, Dancshtalab M, Plosila J, Tenhunen H
(
A4 Article in conference proceedings)

PICA: Multi-Population Implementation of Parallel Imperialist Competitive Algorithms (2016)Majd A, Lotfi S, Sahebi G, Daneshtalab M, Plosila J
(
A4 Article in conference proceedings)

Placement of Smart Mobile Access Points in Wireless Sensor Networks and Cyber-Physical Systems using Fog Computing (2016)Majd A, Sahebi G, Daneshtalab M, Plosila J, Tenhunen H
(
A4 Article in conference proceedings)

SEECC: A Secure and Efficient Elliptic Curve Cryptosystem for E-health Applications (2016)Sahebi G, Majd A, Ebrahimi M, Plosila J, Karimpour J, Tenhunen H
(
A4 Article in conference proceedings)


Last updated on 2017-17-11 at 03:33