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Lim, Kit Guan
- Sumo Enhancement for Vehicular Communication Development
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Authors
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1 Simulation and Computing Laboratory, Universiti Malaysia Sabah, MY
1 Simulation and Computing Laboratory, Universiti Malaysia Sabah, MY
Source
ICTACT Journal on Communication Technology, Vol 8, No 4 (2017), Pagination: 1625-1632Abstract
It is normal that every family is having at least one vehicle at their home as vehicles have become a daily needs for all of us. However, this also leads to the increased of road accidents where major causes are related to human errors which can be prevented. To tackle with this problem, vehicular ad hoc network (VANET) is introduced with the aim to make vehicles intelligent. In order to study the algorithm in VANET, a mobility simulator is needed for simulation purpose. In this case, SUMO is proved to be a good simulation tool in generating VANET environment while MATLAB is good for algorithm development. Yet, to develop a good simulation platform, modification on SUMO files are necessary. This paper discusses on the procedures in creating a left-hand traffic (LHT) simulation file that is suitable to be used in Malaysia. LHT simulation is not easy to achieve as modification on the road connection and traffic light files are required. This paper also showed the results of the simulation after SUMO files modification. Apart from that, this paper also showed the simulation of VANET environment using SUMO and MATLAB through a third party interfacing named TraCI4Matlab, which allows communication between MATLAB and SUMO simulator.Keywords
Mobility Simulator, SUMO, MATLAB, SUMO Files Modification.References
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- M.Y. Choong, R.K.Y. Chin, K.B. Yeo and K.T.K. Teo, “Trajectory Pattern Mining via Clustering based on Similarity Function for Transportation Surveillance”, International Journal of Simulation: Systems, Science and Technology, Vol. 17, No. 34, pp. 191-197, 2016.
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- H.S.E. Chuo, M.K. Tan, B.L. Chua, R.K.Y. Chin and K.T.K. Teo, “Computation of Cell Transmission Model for Congestion and Recovery Traffic Flow”, Proceedings of IEEE International Conference on Consumer Electronics, pp. 667-671, 2016.
- K.T.K. Teo, K.B. Yeo, S.E. Tan, Z.W. Siew and K.G. Lim, “Design and Development of Portable Fuzzy Logic based Traffic Optimizer”, Proceedings of IEEE International Conference on Consumer Electronics, pp. 783-776, 2013.
- K.T.K. Teo, K.B. Yeo, Y.K. Chin, H.S.E. Chuo and M.K. Tan, “Agent-based Traffic Flow Optimization at Multiple Signalized Intersections”, Proceedings of 8th Asia International Conference on Mathematical Modelling and Computer Simulation, pp. 459-463, 2014.
- C.H. Lee, K.G. Lim, B.L. Chua, R.K.Y. Chin and K.T.K. Teo, “Progressing Toward Urban Topology and Mobility Trace for Vehicular Ad Hoc Network (VANET)”, Proceedings of IEEE Conference on Open Systems, pp. 343-346, 2016.
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- K.T.K. Teo, R.K.Y. Chin, S.E. Tan, C.H. Lee and K.G. Lim, “Exploration of Genetic Algorithm in Network Coding for Wireless Sensor Networks”, International Journal of Simulation: Systems, Science and Technology, Vol. 15, No. 6, pp. 83-89, 2014.
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- Hybrid Simulation Network for Vehicular Ad Hoc Network (Vanet)
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Authors
Affiliations
1 Simulation and Computing Laboratory, Universiti Malaysia Sabah, MY
1 Simulation and Computing Laboratory, Universiti Malaysia Sabah, MY
Source
ICTACT Journal on Communication Technology, Vol 9, No 1 (2018), Pagination: 1686-1695Abstract
Intelligent Transportation Systems (ITS) plays a vital role in providing different means of traffic management and enables users to be better informed of traffic condition, promoting safer, coordinated and efficient use of transport network. Vehicular Ad Hoc Network (VANET) shows promising reliability and validity in ITS. But, it poses challenges to researchers in designing protocol specifically for VANET as the deployment of VANET in real world will incur high cost. Therefore, simulation and non-physical testbed implementation have been widely adopted by the VANET research community in the development and assessment of the new or improved system and protocol of VANET. This paper presents a viable simulation platform for network development. Besides, a code cast or better known as network coding, a data packet transmission method has been developed and introduced into VANET protocol using the presented platform to assess and determine the potential of the introduced simulation platform.Keywords
Vehicular Ad hoc Network, Traffic Simulation, Network Simulation, Intelligent Transportation System, Network Coding.References
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- Differential Evolution Based Maximum Power Point Tracker for Photovoltaic Array Under Non-Uniform Illumination Condition
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Authors
Nurul Izyan Kamaruddina
1,
Ahmad Razani Haron
1,
Bih Lii Chua
1,
Min Keng Tan
1,
Kit Guan Lim
1,
Kenneth Tze Kin Teo
1
Affiliations
1 Modelling, Simulation and Computing Laboratory, Artificial Intelligence Research Unit, Faculty of Engineering, Universiti Malaysia Sabah, MY
1 Modelling, Simulation and Computing Laboratory, Artificial Intelligence Research Unit, Faculty of Engineering, Universiti Malaysia Sabah, MY
Source
ICTACT Journal on Soft Computing, Vol 10, No 3 (2020), Pagination: 2076-2083Abstract
Photovoltaic system (PV) is an important technological asset for renewable energy production. It works by converting solar cell energy from the sun into electrical direct current. In reality, the photovoltaic module usually receives non-uniform solar irradiance at different light intensity due to non-atmospheric hindrance. Under such conditions, the PV system exhibits multiple peaks on the energy characteristic curve, generally known as the partial shading condition (PSC). Therefore, in order to maximize the energy harvested by the photovoltaic system (PV), maximum power point tracking (MPPT) method is suggested to extract all possible maxima that have been produced by the PV system under various circumstances through the non-uniform irradiance of the sunlight. Based on previous researches, it is found that conventional method such as perturb and observed (P&O) method failed to track the maximum power and was trapped at the local maximum power (LMPP). This paper focuses on exploring a metaheuristic method which is the differential evolution (DE) algorithm in optimizing the energy harvested by the PV system. The platform chosen for modelling in this paper is a 3 × 3 PV array. The PV array is tested with different conditions of partial shading where random irradiance values are set. Comparing the performance of PV between P&O and DE based MPPT controller, the DE based MPPT controller is inferred to have a higher success rate to escape from being trapped in LMPP and thus produce more total energy.Keywords
Photovoltaic system, Maximum Power Point Tracking, Partial Shading Condition, Perturb and Observed, Differential Evolution.References
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- Comparison Study of Deterministic and Metaheuristic Algorithms for Stochastic Traffic Flow Optimization Under Saturated Condition
Abstract Views :206 |
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Authors
Min Keng Tana
1,
Helen Sin Ee Chuo
1,
Kit Guan Lim
1,
Renee Ka Yin Chin
1,
Soo Siang Yang
1,
Kenneth Tze Kin Teo
1
Affiliations
1 Modelling Simulation and Computing Laboratory, Artificial Intelligence Research Unit, Faculty of Engineering, Universiti Malaysia Sabah, MY
1 Modelling Simulation and Computing Laboratory, Artificial Intelligence Research Unit, Faculty of Engineering, Universiti Malaysia Sabah, MY
Source
ICTACT Journal on Soft Computing, Vol 10, No 3 (2020), Pagination: 2117-2123Abstract
Traffic congestion is a perennial issue for most cities. Various artificial intelligence (AI) algorithms, which can categorize as deterministic and metaheuristic algorithms have been suggested to mitigate congestion. Although traffic flow is dynamic and stochastic in nature, most of the previous works evaluated the algorithms with a deterministic or non-stochastic traffic flow pattern. As such, the adaptiveness of those AI algorithms in dealing with stochastic traffic flow patterns is yet to be investigated. Therefore, this paper aims to explore the feasibility of both algorithm types in controlling stochastic traffic flow. In this work, a benchmarked traffic flow model is modified and developed as the simulation platform with the parameters extracted from the guidelines of Public Works Department Malaysia (JKR). Normal distribution function is embedded in the developed model to simulate non-uniform headway for inflow and outflow vehicles. Two commonly used algorithms, namely Fuzzy Logic and Genetic Algorithm are proposed as the adaptive controller to optimize the traffic signalization based on the instant stochastic traffic demand. The simulation results show the metaheuristic algorithm performs better than the deterministic algorithm. The mutation mechanism of the metaheuristic algorithm improves the exploration ability of the algorithm in seeking the optimum solution within the solution space without bounded by a set of fixed-computational rules.Keywords
Genetic Algorithm, Fuzzy Logic, Signal Optimization, Stochastic Flow, Saturated Condition.References
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Authors
Vincent Chung
1,
Hamzarul Alif Hamzah
1,
Norah Tuah
2,
Kit Guan Lim
1,
Min Keng Tan
1,
Kenneth Tze Kin Teo
1
Affiliations
1 Simulation and Computing Laboratory, Faculty of Engineering, Universiti Malaysia Sabah, MY
2 Faculty of Computer Science and Mathematics, Universiti Teknologi MARA, MY
1 Simulation and Computing Laboratory, Faculty of Engineering, Universiti Malaysia Sabah, MY
2 Faculty of Computer Science and Mathematics, Universiti Teknologi MARA, MY