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Donald Elmazi
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2020 – today
- 2024
- [c89]Elton Domnori, Donald Elmazi, Gledi Tace:
Enhancing Water Resource Management through IoT-Enabled Smart Water Monitoring Systems: A Multi-Agent Algorithm Approach. INISTA 2024: 1-6 - [c88]Klea Elmazi, Donald Elmazi, Eugen Musta, Fatjon Mehmeti, Florenc Hidri:
An Intelligent Transportation Systems-Based Machine Learning-Enhanced Traffic Prediction Model using Time Series Analysis and Regression Techniques. INISTA 2024: 1-6 - [c87]Abdusamed Kura, Donald Elmazi:
Automated Machine Learning Model Selector with Improved Exploratory Data Analysis using Artificial Intelligence. INISTA 2024: 1-6 - 2023
- [c86]Donald Elmazi
, Fatjon Mehmeti
Implementation and Optimization of Narrow-Band Internet of Things (NB-IoT) Nodes Coverage Using Doppler Effect Shift Chips. 3PGCIC 2023: 150-162 - [c85]Elis Kulla, Donald Elmazi
Performance Comparison of Vector Based Forwarding and Depth Based Routing in Underwater Wireless Sensor Networks. BigDataService 2023: 53-57 - [c84]Donald Elmazi
Cybersecurity and Privacy Attacks Detection in IoT Networks with Improved Data Engineering and Machine Learning Methods. BigDataService 2023: 223-228 - [c83]Elis Kulla
Energy-Aware Depth-Based Routing Protocol for Underwater Wireless Sensor Networks. NBiS 2023: 371-382 - 2021
- [j31]Miralda Cuka
Application of fuzzy logic for IoT node elimination and selection in opportunistic networks: performance evaluation of two fuzzy-based systems. World Wide Web 24(3): 929-940 (2021) - 2020
- [j30]Donald Elmazi
Effect of Size of Giant Component for actor node selection in WSANs: A comparison study. Concurr. Comput. Pract. Exp. 32(8) (2020) - [j29]Donald Elmazi
A fuzzy-based approach for event evaluation and actor selection in WSANs. Internet Things 11: 100252 (2020) - [j28]Vladi Kolici, Yi Liu, Ermioni Qafzezi, Donald Elmazi
Improving peer coordination quality in mobile P2P networks considering peer awareness and group synchronization: Implementation and performance evaluation of two fuzzy-based systems. J. High Speed Networks 26(1): 27-39 (2020) - [c82]Donald Elmazi
Effect of Task Accomplishment for Actor Node Selection in WSANs: Performance Evaluation and a Comparison Study. AINA 2020: 476-487 - [c81]Miralda Cuka, Donald Elmazi
A Fuzzy Based Simulation System for IoT Node Selection in an Opportunistic Network Considering IoT Node's Unique Encounters as a New Parameter. AINA 2020: 488-498 - [c80]Donald Elmazi
An Event Response Fuzzy-Based System for Actor Node Selection in WSANs. CISIS 2020: 54-62 - [c79]Donald Elmazi
A Fuzzy-Based System for Actor Node Selection in WSANs Considering Task Accomplishment Time as a New Parameter. EIDWT 2020: 53-63 - [c78]Miralda Cuka, Donald Elmazi
IoT Node Selection in Opportunistic Networks: A Fuzzy-Based Approach Considering Node's Successful Delivery Ratio (NSDR) as a New Parameter. EIDWT 2020: 64-72 - [c77]Miralda Cuka, Donald Elmazi
IoT Node Elimination and Selection for Completing Tasks in Opportunistic Networks: A Fuzzy Logic Approach. IMIS 2020: 11-22 - [c76]Miralda Cuka, Donald Elmazi
A Decision-Making System Based on Fuzzy Logic for IoT Node Selection in Opportunistic Networks Considering Node Betweenness Centrality as a New Parameter. INCoS 2020: 36-43 - [c75]Donald Elmazi
Application of Fuzzy Logic for Event Evaluation in WSANs. NBiS 2020: 461-469
2010 – 2019
- 2019
- [j27]Kevin Bylykbashi
Effect of security and trustworthiness for a fuzzy cluster management system in VANETs. Cogn. Syst. Res. 55: 153-163 (2019) - [j26]Miralda Cuka
IoT node selection in Opportunistic Networks: Implementation of fuzzy-based simulation systems and testbed. Internet Things 8 (2019) - [j25]Miralda Cuka, Donald Elmazi
Implementation and performance evaluation of two fuzzy-based systems for selection of IoT devices in opportunistic networks. J. Ambient Intell. Humaniz. Comput. 10(2): 519-529 (2019) - [j24]Donald Elmazi
Application of Fuzzy Logic for Selection of Actor Nodes in WSANs - Implementation of Two Fuzzy-Based Systems and a Testbed. Sensors 19(24): 5573 (2019) - [c74]Donald Elmazi
Effect of Degree of Centrality Parameter on Actor Selection in WSANs: A Fuzzy-Based Simulation System and Its Performance Evaluation. 3PGCIC 2019: 35-46 - [c73]Kevin Bylykbashi
A Secure and Trustworthy Intelligent System for Clustering in VANETs Using Fuzzy Logic. AINA 2019: 156-165 - [c72]Donald Elmazi
A Fuzzy-Based System for Actor Node Selection in WSANs Considering Level of Received Signal. AINA 2019: 238-250 - [c71]Miralda Cuka, Donald Elmazi
Selection of IoT Devices in Opportunistic Networks: A Fuzzy-Based Approach Considering IoT Device's Selfish Behaviour. AINA 2019: 251-264 - [c70]Miralda Cuka, Donald Elmazi
A Fuzzy-Based Simulation System for IoT Node Selection in Opportunistic Networks and Testbed Implementation. BWCCA 2019: 32-43 - [c69]Kevin Bylykbashi
Implementation of a Fuzzy-Based Simulation System and a Testbed for Improving Driving Conditions in VANETs. CISIS 2019: 3-12 - [c68]Miralda Cuka, Donald Elmazi
IoT Node Selection and Placement: A New Approach Based on Fuzzy Logic and Genetic Algorithm. CISIS 2019: 22-35 - [c67]Donald Elmazi
A Fuzzy-Based System for Selection of Actor Nodes in WSANs Considering Actor Reliability and Load Distribution. EIDWT 2019: 25-38 - [c66]Miralda Cuka, Donald Elmazi
IoT Device Selection in Opportunistic Networks: A Fuzzy Approach Considering IoT Device Failure Rate. EIDWT 2019: 39-52 - [c65]Donald Elmazi
A Fuzzy-Based System for Actor Node Selection in WSANS: Simulation and Experimental Results. IMIS 2019: 11-24 - [c64]Myoungsu Kim, Soonhong Kwon, Donald Elmazi
A Technical Survey on Methods for Detecting Rogue Access Points. IMIS 2019: 215-226 - 2018
- [j23]Miralda Cuka
Effect of node centrality for IoT device selection in opportunistic networks: A comparison study. Concurr. Comput. Pract. Exp. 30(21) (2018) - [j22]Donald Elmazi
Implementation and performance evaluation of an intelligent fuzzy-based testbed for WSANs: a case study for object tracking. Int. J. Commun. Networks Distributed Syst. 21(1): 80-94 (2018) - [j21]Miralda Cuka, Donald Elmazi
Implementation of two fuzzy-based systems for IoT device selection in opportunistic networks: effect of storage parameter on IoT device selection. Int. J. Commun. Networks Distributed Syst. 21(1): 95-114 (2018) - [j20]Donald Elmazi
Implementation of intelligent fuzzy-based systems for actor node selection in WSANs: A comparison study considering effect of actor congestion situation. J. High Speed Networks 24(3): 187-199 (2018) - [c63]Miralda Cuka, Donald Elmazi
A Fuzzy-Based System for Selection of IoT Devices in Opportunistic Networks Considering Number of Past Encounters. 3PGCIC 2018: 223-237 - [c62]Donald Elmazi
Selection of Actor Nodes in Wireless Sensor and Actor Networks: A Fuzzy-Based Approach Considering Number of Obstacles as New Parameter. AINA 2018: 658-666 - [c61]Miralda Cuka, Donald Elmazi
A Fuzzy-Based System for Selection of IoT Devices in Opportunistic Networks Considering IoT Device Storage, Waiting Time and Node Centrality Parameters. AINA 2018: 710-716 - [c60]Donald Elmazi
A Fuzzy-Based System for Actor Node Selection in WSANs Considering Load Balancing of Actors. BWCCA 2018: 97-109 - [c59]Donald Elmazi
A Fuzzy-Based Approach for Selection of Actor Nodes in WSANs Considering Size of Giant Component as New Parameter. CISIS 2018: 89-101 - [c58]Miralda Cuka, Donald Elmazi
A Fuzzy-Based System for Selection of IoT Devices in Opportunistic Networks Considering IoT Device Storage, Waiting Time and Security Parameters. EIDWT 2018: 94-105 - [c57]Donald Elmazi
Selection of Actor Nodes in Wireless Sensor and Actor Networks Considering Failure of Assigned Task as New Parameter. EIDWT 2018: 106-118 - [c56]Miralda Cuka, Donald Elmazi
A Fuzzy-Based System for Selection of IoT Devices in Opportunistic Networks Considering IoT Device Contact Duration, Storage and Remaining Energy. IMIS 2018: 74-85 - [c55]Donald Elmazi
A Fuzzy-Based System for Actor Node Selection in WSANs for Improving Network Connectivity and Increasing Number of Covered Sensors. NBiS 2018: 3-15 - [c54]Miralda Cuka, Donald Elmazi
A Delay-Aware Fuzzy-Based System for Selection of IoT Devices in Opportunistic Networks. NBiS 2018: 16-29 - 2017
- [j19]Miralda Cuka, Donald Elmazi
An Integrated Fuzzy-Based System for Cluster-Head Selection and Sensor Speed Control in Wireless Sensor Networks. Int. J. Distributed Syst. Technol. 8(2): 1-14 (2017) - [j18]Mirjeta Alinci, Takaaki Inaba, Donald Elmazi
A comparison of two fuzzy-based systems considering node security in MANET clusters. Int. J. Grid Util. Comput. 8(4): 343-356 (2017) - [j17]Ryoichiro Obukata, Miralda Cuka, Donald Elmazi
Design and evaluation of an ambient intelligence testbed for improving quality of life. Int. J. Space Based Situated Comput. 7(1): 8-15 (2017) - [j16]Kosuke Ozera, Shinji Sakamoto, Donald Elmazi
A fuzzy approach for clustering in MANETs: performance evaluation for different parameters. Int. J. Space Based Situated Comput. 7(3): 166-176 (2017) - [j15]Donald Elmazi
Implementation and comparison of two intelligent systems based on fuzzy logic for actor selection in WSANs: effect of node density on actor selection. Int. J. Space Based Situated Comput. 7(4): 229-238 (2017) - [j14]Admir Barolli, Donald Elmazi
Experimental results of a Raspberry Pi and OLSR based wireless content centric network testbed: comparison of different platforms. Int. J. Web Grid Serv. 13(1): 131-141 (2017) - [c53]Miralda Cuka, Donald Elmazi
An Integrated Intelligent System for IoT Device Selection and Placement in Opportunistic Networks Using Fuzzy Logic and Genetic Algorithm. AINA Workshops 2017: 201-207 - [c52]Kosuke Ozera, Takaaki Inaba, Donald Elmazi
A Fuzzy Approach for Secure Clustering in MANETs: Effects of Distance Parameter on System Performance. AINA Workshops 2017: 251-258 - [c51]Ryoichiro Obukata, Miralda Cuka, Donald Elmazi
Performance Evaluation of an AmI Testbed for Improving QoL: Evaluation Using Clustering Approach Considering Distributed Concurrent Processing. AINA Workshops 2017: 271-275 - [c50]Miralda Cuka, Donald Elmazi
Selection of Actor Nodes in Opportunistic Networks: A Fuzzy-Based Approach. AINA 2017: 278-284 - [c49]Donald Elmazi
Effect of Node Density on Actor Selection in WSANs: A Comparison Study for Two Fuzzy-Based Systems. AINA 2017: 865-871 - [c48]Donald Elmazi
Selection of Actor Nodes in Wireless Sensor and Actor Networks Considering Actor-Sensor Coordination Quality Parameter. BWCCA 2017: 87-99 - [c47]Miralda Cuka, Donald Elmazi
Effect of Storage Size on IoT Device Selection in Opportunistic Networks: A Comparison Study of Two Fuzzy-Based Systems. BWCCA 2017: 100-113 - [c46]Gaku Tsuchiya, Makoto Ikeda, Donald Elmazi
A Disaster Information Gathering System Design Using Fuzzy Logic. BWCCA 2017: 854-861 - [c45]Miralda Cuka, Donald Elmazi
A Delay-Aware Fuzzy-Based System for Selection of IoT Devices in Opportunistic Networks. CISIS 2017: 3-13 - [c44]Donald Elmazi
Selection of Actor Nodes in Wireless Sensor and Actor Networks: A Fuzzy-Based System Considering Packet Error Rate as a New Parameter. CISIS 2017: 43-55 - [c43]Miralda Cuka, Kosuke Ozera, Ryoichiro Obukata, Donald Elmazi
Implementation of a GA-based Simulation System for Placement of IoT Devices: Evaluation for a WSAN Scenario. EIDWT 2017: 34-42 - [c42]Ryoichiro Obukata, Miralda Cuka, Donald Elmazi
Implementation of an Actor Node for an Ambient Intelligence Testbed: Evaluation and Effects of Actor Node on Human Sleeping Condition. EIDWT 2017: 98-106 - [c41]Tetsuya Oda, Elis Kulla, Miralda Cuka, Donald Elmazi
Performance Evaluation of a Deep Q-Network Based Simulation System for Actor Node Mobility Control in Wireless Sensor and Actor Networks Considering Different Distributions of Events. IMIS 2017: 36-49 - [c40]Gaku Tsuchiya, Keisuke Ebisu, Makoto Ikeda, Donald Elmazi
A Fuzzy-Based Testbed for Wireless Sensor and Actuator Networks: Performance Evaluation for Different Remaining Energy of Actuators. IMIS 2017: 87-97 - [c39]Miralda Cuka, Donald Elmazi
A Fuzzy-Based System for Selection of IoT Devices in Opportunistic Networks Considering IoT Device Speed, Storage and Remaining Energy Parameters. INCoS 2017: 16-27 - [c38]Tetsuya Oda, Donald Elmazi
Performance Evaluation of a Deep Q-Network Based Simulation System for Actor Node Mobility Control in Wireless Sensor and Actor Networks Considering Three-Dimensional Environment. INCoS 2017: 41-52 - [c37]Ryoichiro Obukata, Miralda Cuka, Donald Elmazi
Implementation of an Actor Node for an Ambient Intelligence Testbed Considering Bed Temperature and Room Lighting: Its Effects on Human Sleeping Condition. INCoS 2017: 73-81 - [c36]Donald Elmazi
Effect of Packet Error Rate on Selection of Actor Nodes in WSANs: A Comparison Study of Two Fuzzy-Based Systems. NBiS 2017: 114-126 - 2016
- [j13]Donald Elmazi
Two Fuzzy-Based Systems for Selection of Actor Nodes inWireless Sensor and Actor Networks: A Comparison Study Considering Security Parameter Effect. Mob. Networks Appl. 21(1): 53-64 (2016) - [j12]Tetsuya Oda, Donald Elmazi
A genetic algorithm-based system for wireless mesh networks: analysis of system data considering different routing protocols and architectures. Soft Comput. 20(7): 2627-2640 (2016) - [c35]Mirjeta Alinci, Takaaki Inaba, Donald Elmazi
Improving Reliability of Cluster Nodes in MANETs: A Fuzzy-Based Approach. AINA Workshops 2016: 577-584 - [c34]Donald Elmazi
Effect of Security Parameter for Selection of Actor Nodes in WSAN: A Comparison Study of Two Fuzzy-Based Systems. AINA 2016: 957-964 - [c33]Donald Elmazi
A Fuzzy-Based Simulation System for Actor Selection in Wireless Sensor and Actor Networks Considering as a New Parameter Density of Actor Nodes. BWCCA 2016: 163-174 - [c32]Ryoichiro Obukata, Tetsuya Oda, Donald Elmazi
Performance Evaluation of an AmI Testbed for Improving QoL: Evaluation Using Clustering Approach Considering Parallel Processing. BWCCA 2016: 623-630 - [c31]Kosuke Ozera, Tetsuya Oda, Donald Elmazi
Design and Implementation of a Simulation System Based on Genetic Algorithm for Node Placement in Wireless Sensor and Actor Networks. BWCCA 2016: 673-682 - [c30]Keisuke Ebisu, Takaaki Inaba, Donald Elmazi
A Fuzzy-Based Wireless Sensor and Actuator Network: Simulation and Experimental Results. BWCCA 2016: 693-701 - [c29]Mirjeta Alinci, Takaaki Inaba, Donald Elmazi
A Fuzzy-Based System for Improving Node Security in MANET Clusters. CISIS 2016: 53-60 - [c28]Keisuke Ebisu, Takaaki Inaba, Donald Elmazi
Performance Evaluation of a Fuzzy-Based Wireless Sensor and Actuator Network Testbed Considering Depth and RGB Sensors. CISIS 2016: 69-75 - [c27]Ryoichiro Obukata, Tetsuya Oda, Donald Elmazi
Performance Evaluation of an Ambient Intelligence Testbed for Improving Quality of Life: Evaluation Using Clustering Approach. CISIS 2016: 484-487 - [c26]Elis Kulla, Donald Elmazi
Neuro-Adaptive Learning Fuzzy-Based System for Actor Selection inWireless Sensor and Actor Networks. CISIS 2016: 488-493 - [c25]Takaaki Inaba, Donald Elmazi
Application of Fuzzy Logic for Secure Handover in Wireless Cellular Networks. CISIS 2016: 509-515 - [c24]Donald Elmazi
A QoS-aware Actor Node Selection System for Wireless Sensor and Actor Networks Using Fuzzy Logic. IMIS 2016: 42-48 - [c23]Tetsuya Oda, Donald Elmazi
Experimental Results of a Raspberry Pi Based WMN Testbed in Indoor Environment: A Comparison Study of LoS and NLoS Scenarios. NBiS 2016: 9-14 - [c22]Donald Elmazi
Selection of Actor Nodes in Wireless Sensor and Actor Networks Considering as a New Parameter Actor Congestion Situation. NBiS 2016: 29-36 - [c21]Mirjeta Alinci, Takaaki Inaba, Donald Elmazi
Improving Node Security in MANET Clusters: A Comparison Study of Two Fuzzy-Based Systems. NBiS 2016: 355-363 - [c20]Takaaki Inaba, Donald Elmazi
Performance Evaluation of a Fuzzy-Based Connection Admission Control System for Wireless Cellular Networks Considering Security and Priority Parameters. NBiS 2016: 414-419 - [c19]Ryoichiro Obukata, Tetsuya Oda, Donald Elmazi
Performance Evaluation of an Ambient Intelligence Testbed for Improving Quality of Life: Evaluation Using Mean Shift Clustering Algorithm. NBiS 2016: 447-450 - 2015
- [j11]Tetsuya Oda, Yi Liu, Shinji Sakamoto
Analysis of mesh router placement in wireless mesh networks using Friedman test considering different meta-heuristics. Int. J. Commun. Networks Distributed Syst. 15(1): 84-106 (2015) - [j10]Keita Matsuo, Yi Liu, Donald Elmazi
A Waste Management Robot System: Its Implementation and Experimental Results. Int. J. Distributed Syst. Technol. 6(2): 1-12 (2015) - [j9]Donald Elmazi
F3N: An Intelligent Fuzzy-Based Cluster Head Selection System for WSNs and Its Performance Evaluation. Int. J. Distributed Syst. Technol. 6(2): 28-44 (2015) - [j8]Keita Matsuo, Donald Elmazi
A multi-modal simulation system for wireless sensor networks: a comparison study considering stationary and mobile sink and event. J. Ambient Intell. Humaniz. Comput. 6(4): 519-529 (2015) - [j7]Donald Elmazi
A comparison study of two fuzzy-based systems for selection of actor node in wireless sensor actor networks. J. Ambient Intell. Humaniz. Comput. 6(5): 635-645 (2015) - [j6]Keita Matsuo, Donald Elmazi
FACS-MP: A fuzzy admission control system with many priorities for wireless cellular networks and its performance evaluation. J. High Speed Networks 21(1): 1-14 (2015) - [j5]Donald Elmazi
A mobility-aware fuzzy-based system for actor selection in wireless sensor-actor networks. J. High Speed Networks 21(1): 15-25 (2015) - [j4]Keita Matsuo, Donald Elmazi
A Mobile Omnidirectional Wheelchair: Its Implementation and Experimental Evaluation. J. Mobile Multimedia 11(1&2): 1-9 (2015) - [j3]Donald Elmazi
Implementation and Evaluation of A Fuzzy-based Cluster-Head Selection System for Wireless Sensor Networks Considering Network Traffic. J. Mobile Multimedia 11(1&2): 10-20 (2015) - [j2]Takaaki Inaba, Donald Elmazi
A Secure-Aware Call Admission Control Scheme for Wireless Cellular Networks Using Fuzzy Logic and Its Performance Evaluation. J. Mobile Multimedia 11(3&4): 213-222 (2015) - [j1]Taro Ishitaki, Tetsuya Oda, Yi Liu, Donald Elmazi
A Neural Network Based Intrusion Detection and User Identification System for Tor Networks: Performance Evaluation for Different Number of Hidden Units using Friedman Test. J. Mobile Multimedia 11(3&4): 251-262 (2015) - [c18]Keita Matsuo, Yi Liu, Donald Elmazi
Implementation and Evaluation of a Small Size Omnidirectional Wheelchair. AINA Workshops 2015: 49-53 - [c17]Takaaki Inaba, Donald Elmazi
Integrating Wireless Cellular and Ad-Hoc Networks Using Fuzzy Logic Considering Node Mobility and Security. AINA Workshops 2015: 54-60 - [c16]Taro Ishitaki, Donald Elmazi
Application of Neural Networks for Intrusion Detection in Tor Networks. AINA Workshops 2015: 67-72 - [c15]Donald Elmazi
Selection of Actor Nodes in Wireless Sensor and Actor Networks: A Fuzzy Based Method Considering Actor Mobility. AINA Workshops 2015: 304-310 - [c14]Yi Liu, Donald Elmazi
A Reliable System for JXTA-Overlay P2P Platform Considering Number of Authentic Files, Security and QoS Parameters. AINA 2015: 521-526 - [c13]Donald Elmazi
Selection of Secure Actors in Wireless Sensor and Actor Networks Using Fuzzy Logic. BWCCA 2015: 125-131 - [c12]Tetsuya Oda, Donald Elmazi
Experimental Results of a Raspberry Pi Based WMN Testbed for Multiple Flows and Distributed Concurrent Processing. BWCCA 2015: 201-206 - [c11]Tetsuya Oda, Donald Elmazi
Implementation and Experimental Results of a Raspberry Pi and OLSR Based Wireless Content-Centric Network Testbed. BWCCA 2015: 263-268 - [c10]Makoto Ikeda, Keisuke Ebisu, Yuki Sakai, Donald Elmazi
Performance Evaluation of a Fuzzy-Based Wireless Sensor and Actuator Network Testbed for Object Tracking. BWCCA 2015: 442-447 - [c9]Alda Xhafa, Evjola Spaho
A Study on Performance of Hill Climbing for Router Placement in Wireless Mesh Networks. BWCCA 2015: 460-465 - [c8]Donald Elmazi
A Selection of Actor Node in Wireless Sensor Actor Networks: A Case Study for Static and Mobile Actor Nodes. CISIS 2015: 36-43 - [c7]Donald Elmazi
Analysis of Node Placement in Wireless Mesh Networks Using Friedman Test: A Comparison Study for Genetic Algorithms and Hill Climbing. CISIS 2015: 513-520 - [c6]Keita Matsuo, Tetsuya Oda, Donald Elmazi
Performance Evaluation of AODV, OLSR and HWMP Protocols in Ad-Hoc Networks and MANET Scenarios. IMIS 2015: 15-21 - [c5]Tetsuya Oda, Donald Elmazi
Analysis of Node Placement in Wireless Mesh Networks Using Friedman Test: A Comparison Study for Tabu Search and Hill Climbing. IMIS 2015: 133-140 - [c4]Donald Elmazi
Friedman Test for Analysing WMNs: A Comparison Study for Genetic Algorithms and Simulated Annealing. IMIS 2015: 171-178 - [c3]Donald Elmazi
Selection of Rendezvous Point in Content Centric Networks Using Fuzzy Logic. NBiS 2015: 345-350 - [c2]Tetsuya Oda, Donald Elmazi
A Simulation System Based on ONE and SUMO Simulators: Performance Evaluation of Direct Delivery, Epidemic and Energy Aware Epidemic DTN Protocols. NBiS 2015: 418-423 - [c1]Keisuke Ebisu, Takaaki Inaba, Donald Elmazi
A Fuzzy-Based Testbed Design for Wireless Sensor and Actuator Networks. NBiS 2015: 548-553
Coauthor Index
[c83] [j31] [j30] [j29] [j28] [c82] [c81] [c80] [c79] [c78] [c77] [c76] [c75] [j27] [j26] [j25] [j24] [c74] [c73] [c72] [c71] [c70] [c69] [c68] [c67] [c66] [c65] [c64] [j23] [j22] [j21] [j20] [c63] [c62] [c61] [c60] [c59] [c58] [c57] [c56] [c55] [c54] [j19] [j18] [j17] [j16] [j15] [j14] [c53] [c52] [c51] [c50] [c49] [c48] [c47] [c46] [c45] [c44] [c43] [c42] [c41] [c40] [c39] [c38] [c37] [c36] [j13] [j12] [c35] [c34] [c33] [c32] [c31] [c30] [c29] [c28] [c27] [c26] [c25] [c24] [c23] [c22] [c21] [c20] [c19] [j11] [j10] [j9] [j8] [j7] [j6] [j5] [j4] [j3] [j2] [j1] [c18] [c17] [c16] [c15] [c14] [c13] [c12] [c11] [c10] [c8] [c7] [c6] [c5] [c4] [c3] [c2] [c1]
[j31] [j30] [j29] [c82] [c81] [c80] [c79] [c78] [c77] [c76] [c75] [j26] [j25] [j24] [c74] [c72] [c71] [c70] [c68] [c67] [c66] [c65] [j23] [j21] [j20] [c63] [c62] [c61] [c60] [c59] [c58] [c57] [c56] [c55] [c54] [j19] [j17] [j15] [c53] [c51] [c50] [c49] [c48] [c47] [c45] [c44] [c43] [c42] [c41] [c39] [c38] [c37] [c36]
[j31] [j30] [j29] [c82] [c81] [c80] [c79] [c78] [c77] [c76] [c75] [j27] [j26] [j25] [j24] [c74] [c73] [c72] [c71] [c70] [c69] [c68] [c67] [c66] [c65] [j23] [j22] [j21] [j20] [c63] [c62] [c61] [c60] [c59] [c58] [c57] [c56] [c55] [c54] [j19] [j17] [j16] [j15] [j14] [c49] [c48] [c47] [c46] [c45] [c44] [c41] [c40] [c39] [c38] [c36] [c33] [c32] [c30] [c28] [c25] [c24] [c22] [c20] [c19] [j9] [j3] [j2] [c13] [c11] [c10] [c1]
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