Eslampanah, Raheleh

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Profile URL
https://hdl.handle.net/20.500.14365/7164
Name Variants
Eslampanah, R
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Email Address
Main Affiliation
05.06. Electrical and Electronics Engineering
Status
Former Staff
Website
ORCID ID
0000-0001-8188-7464
Scopus Author ID
56369044700
Turkish CoHE Profile ID
Google Scholar ID
R0ySATMAAAAJ
WoS Researcher ID
COM-1652-2022

Sustainable Development Goals

5

GENDER EQUALITY
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9

INDUSTRY, INNOVATION AND INFRASTRUCTURE
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1

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13

CLIMATE ACTION
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8

DECENT WORK AND ECONOMIC GROWTH
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1

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14

LIFE BELOW WATER
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17

PARTNERSHIPS FOR THE GOALS
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1

NO POVERTY
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2

ZERO HUNGER
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4

QUALITY EDUCATION
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11

SUSTAINABLE CITIES AND COMMUNITIES
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16

PEACE, JUSTICE AND STRONG INSTITUTIONS
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3

GOOD HEALTH AND WELL-BEING
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6

CLEAN WATER AND SANITATION
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12

RESPONSIBLE CONSUMPTION AND PRODUCTION
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10

REDUCED INEQUALITIES
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15

LIFE ON LAND
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7

AFFORDABLE AND CLEAN ENERGY
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Documents

17

Citations

205

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8

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Documents

12

Citations

91

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Scholarly Output

6

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Supervised MSc Theses

0

Supervised PhD Theses

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WoS Citation Count

45

Scopus Citation Count

80

WoS h-index

4

Scopus h-index

5

Patents

0

Projects

0

WoS Citations per Publication

7.50

Scopus Citations per Publication

13.33

Open Access Source

0

Supervised Theses

0

JournalCount
2018 5th International Conference on Electrical and Electronics Engineering, ICEEE 20181
2018 5Th Internatıonal Conference on Electrıcal And Electronıc Engıneerıng (Iceee)1
2019 Ieee/Acm 1St Internatıonal Workshop on Software Engıneerıng Research & Practıces For the Internet of Thıngs (Serp4Iot 2019)1
26th IEEE Signal Processing and Communications Applications Conference, SIU 20181
CEUR Workshop Proceedings1
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Now showing 1 - 6 of 6
  • Thumbnail Image
    Conference Object
    Citation - WoS: 5
    Citation - Scopus: 7
    Probability Estimation for the Fault Detection and Isolation of Pmu-Based Transmission Line System of Smart Grid
    (Institute of Electrical and Electronics Engineers Inc., 2018) Naseem S.A.; Eslampanah, Raheleh; Uddin R.
    Phasor measurement sensor plays an important role in finding the fault location in smart transmission line grid by sensing the voltage and current phasors of the sum of zero- and/or positive sequence entering the phasor measurement unit and communicate with the other PMU sensor installed at other buses in order to isolate the faulty transmission line. This work studies the accuracy and reliability of the information flow of the backup protection system in transmission line network. A method is proposed to find the fault detection and isolation probabilities of the transmission line of smart grid. We propose the development of Markovian model of the Western System Coordinating Council (WSCC-9) bus system with backup protection zone and formally verify the model via probabilistic model checker tool in order to analyse the system accuracy, efficiency and reliability by developing the logical properties. Furthermore, prediction of the success/failure isolation probabilities of transmission line is done. The probabilistic model checker (PRISM) is utilized for the estimation of all the success /failure probabilities and the verification of the WSCC-9 bus model via logical properties. © 2018 IEEE.
  • Thumbnail Image
    Conference Object
    Citation - WoS: 24
    Citation - Scopus: 33
    Applying Model Driven Engineering Techniques To the Development of Contiki-Based Iot Systems
    (Assoc Computing Machinery, 2019) Asici, Tansu Zafer; Karaduman, Burak; Eslampanah, Raheleh; Challenger, Moharram; Denil, Joachim; Vangheluwe, Hans
    The huge variety of smart devices and their communication models increases the development complexity of embedded software for the Internet of Things. As a consequence, development of these systems becomes more complex, error-prone, and costly. To tackle this problem, in this study, a model-driven approach is proposed for the development of Contiki-based IoT systems. To this end, the Contiki metamodel available in the literature is extended to include elements of WiFi connectivity modules (such as ESP8266), IoT Log Manager, and information processing components (such as Raspberry Pi). Based on this new metamodel, a domain-specific modeling environment is developed in which visual symbols are used and static semantics (representing system constraints) are defined. Also, the architectural code for the computing components of the IoT system such as Contiki, ESP8266, and RaspberryPi are generated from the developer's instance model. Finally, a Smart Fire Detection system is used to evaluate this study. By modeling the Contiki-based IoT system, we support model-driven development of the system, including WSN motes and sink nodes (with ContikiOS), WiFi modules and information processing components.
  • Thumbnail Image
    Conference Object
    Citation - Scopus: 7
    DSML4TinyOS: Code generation for wireless devices
    (CEUR-WS, 2018) Marah H.M.; Eslampanah, Raheleh; Challenger M.
    There are various operating systems and programming languages for programming the low power wireless devices in the Internet of Things (IoT). This heterogeneity makes the process of programming these devices time-consuming and complex. In our running study, we aim to deploy Model-driven Engineering (MDE) techniques in order to increase the level of abstraction to deal with this complexity. To this end, our purpose is to provide a platform-independent modeling framework for the development of IoT programs from developers' domain models. This will be realized by developing various platform specific modeling environments for different IoT operating systems and their programming languages. In this paper, we present DSML4TinyOS; a Domain-specific Modeling Language for TinyOS with which the developers can generate architectural code for low power wireless devices in nesC language. The metamodel, graphical concrete syntax, constraint checking rules, and model to text transformation rules of DSML4TinyOS are introduced and a case study is presented for the evaluation of the proposed DSML. © 2018 CEUR-WS. All rights reserved.
  • Thumbnail Image
    Conference Object
    Citation - WoS: 6
    Contikios Based Library Fire Detection System
    (IEEE, 2018) Karaduman, Burak; Challenger, Moharram; Eslampanah, Raheleh
    In this paper, a ContikiOS based Library Fire Detection System has been designed and implemented using wireless sensor networks. The system consists of Atmel AVR IRIS motes which are operating with IEEE 802.15.4 network protocol, Linux based RaspberryPI, and ESP8266 Wi-Fi transceiver. The system can be easily transported, repositioned and expanded. Benefiting from multithreading feature of ContikiOS and executing the tasks in parallel, the system has a short response time, which is critical for fire detection. According to the test results, the system responds to the changes in temperature and prompts a warning/alarm message in approximately 4 seconds.
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    Conference Object
    Citation - WoS: 4
    Citation - Scopus: 10
    A Cloud and Contiki Based Fire Detection System Using Multi-Hop Wireless Sensor Networks
    (Assoc Computing Machinery, 2018) Karaduman, Burak; Asici, Tansu; Challenger, Moharram; Eslampanah, Raheleh
    In this study, a ContikiOS based Library Fire Detection System proposed to provide coverage for a large physical area and to increase throughput by using multi-hop wireless sensor network. Moreover, the system has clouding feature of Google's Firebase for online data storing and Android application to notify the users in case of emergency. Furthermore, the network can be expanded without adding extra sink nodes to collect data. Benefiting from a multi-hop network, additional source nodes can send temperature values via relay nodes in case of low transmission power with sink node. According to the test results, the system has responded to the changes in temperature and prompted warning/alarm message in approximately 4 seconds using multi-hop network. Additionally, the system can notify the users in case of emergency.
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    Conference Object
    Citation - WoS: 6
    Citation - Scopus: 23
    Heat Leakage Detection and Surveiallance Using Aerial Thermography Drone
    (Institute of Electrical and Electronics Engineers Inc., 2018) Kayan, Hakan; Eslampanah, Raheleh; Yeganli F.; Askar M.
    In recent years, UAVs provide an excellent investigative tool used for detecting heat leakages and their surveillance using high-resolution thermal cameras. In this work a low cost optimal aerial drone for surveillance and heat leakage detection is developed. The developed hexacopter have been used to take thermal images. These images have been analyzed by a developed image processing toolkit to find a solution for important needs in civil applications like search and rescue, surveillance and heat loss mapping for buildings. Our toolkit illustrates the heat leakages in the picture and calculates the total waste of money due to heat leakages of buildings. © 2018 IEEE.