Mehdi Ghatee | Artificial Intelligence | Best Researcher Award

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Prof. Mehdi Ghatee | PArtificial Intelligence | Best Researcher Award

Full Professor at Amirkabir University of Technology, Iraq

This individual is a highly skilled project manager with expertise in intelligent transportation systems and infrastructure. They have led several high-profile ITS projects across Iran, including the Action Plan for Intelligent Transportation Systems in Shiraz and national projects involving intracity and intercity ITS. Their work focuses on optimizing transportation systems using advanced technologies such as artificial intelligence, neural networks, and data science. With a career spanning over two decades, they have contributed significantly to improving Iran’s public transportation and highway systems, as well as advising on critical petroleum transport safety issues.

Profile

Education🎓

They hold advanced degrees in engineering and transportation systems, including specialized training in artificial intelligence and network optimization. Their academic journey began with a focus on optimizing transportation networks, and they later pursued studies that explored neural networks and intelligent transportation systems. Through continued education and professional development, they gained cutting-edge knowledge in data mining and its applications in transportation. Their interdisciplinary background merges technical expertise with the management of large-scale infrastructure projects.

Experience💼

The individual has a rich professional background in transportation management. They have served as a project manager for various organizations, including the Shiraz Municipality, Tehran Deputy of Traffic, MSRT, and Tehran Control Traffic Company. Their leadership has been instrumental in developing intelligent transportation solutions and investigating hazardous material transportation risks. They also advised on BRT systems and public transportation initiatives. With over 15 years of experience in both the public and private sectors, they’ve been at the forefront of implementing ITS and advising on petroleum-related transport and logistics.

Awards & Honors🏆

Over their career, the individual has been recognized for their contributions to transportation system innovation and project management excellence. Their leadership on intelligent transportation systems projects has earned them accolades from governmental bodies such as the MSRT and NIOPDC. Notable achievements include awards for the implementation of cutting-edge ITS technologies, as well as safety improvements in the transportation of hazardous materials. Their work has significantly enhanced public transit systems in major Iranian cities, particularly Tehran and Shiraz, positioning them as a key figure in national transportation projects.

Research Focus 🔬

Their research primarily revolves around the application of artificial intelligence and neural networks in optimizing transportation networks. Starting with a focus on network optimization in 2004, they expanded their interests to intelligent transportation systems (ITS) and later neural networks and data mining. They aim to create efficient and safer transportation systems through the use of AI, exploring ways to minimize congestion, enhance road safety, and improve the transportation of goods, especially hazardous materials. Their work intersects with both public transit and highway infrastructure improvements through innovative tech solutions.

Conclusion

The candidate possesses outstanding credentials in intelligent transportation systems and AI-driven technologies, making them a strong contender for the Best Researcher Award. Their vast project management experience, coupled with a diverse research portfolio in AI, neural networks, and data science, aligns well with the award criteria. To further solidify their candidacy, expanding their international collaborations and academic contributions would provide a broader platform for their innovative work, making them a more recognized figure in the global research community.

Publication Top Notes
  • A systematic review on overfitting control in shallow and deep neural networks
    • Authors: MM Bejani, M Ghatee
    • Journal: Artificial Intelligence Review
    • Citations: 304
    • Year: 2021
    • Details: This review addresses various methods for controlling overfitting in neural networks, both shallow and deep, presenting strategies and techniques for improving generalization in machine learning models.
  • Computational methods for solving fully fuzzy linear systems
    • Authors: M Dehghan, B Hashemi, M Ghatee
    • Journal: Applied Mathematics and Computation
    • Citations: 298
    • Year: 2006
    • Details: This paper introduces novel computational techniques to solve fully fuzzy linear systems, which have applications in systems where uncertainty is modeled using fuzzy logic.
  • Solution of the fully fuzzy linear systems using iterative techniques
    • Authors: M Dehghan, B Hashemi, M Ghatee
    • Journal: Chaos, Solitons & Fractals
    • Citations: 171
    • Year: 2007
    • Details: Focuses on iterative techniques to solve fuzzy linear systems, providing an alternative to traditional crisp systems solutions.
  • A context-aware system for driving style evaluation by an ensemble learning on smartphone sensors data
    • Authors: MM Bejani, M Ghatee
    • Journal: Transportation Research Part C: Emerging Technologies
    • Citations: 153
    • Year: 2018
    • Details: Proposes an ensemble learning model for driving style evaluation using smartphone sensor data, improving transportation safety and behavior analysis.
  • Convolutional neural network with adaptive regularization to classify driving styles on smartphones
    • Authors: MM Bejani, M Ghatee
    • Journal: IEEE Transactions on Intelligent Transportation Systems
    • Citations: 84
    • Year: 2019
    • Details: Introduces CNNs with adaptive regularization techniques for classifying driving styles using mobile sensor data.
  • Hybrid of discrete wavelet transform and adaptive neuro-fuzzy inference system for overall driving behavior recognition
    • Authors: HR Eftekhari, M Ghatee
    • Journal: Transportation Research Part F: Traffic Psychology and Behavior
    • Citations: 83
    • Year: 2018
    • Details: Combines wavelet transforms and neuro-fuzzy systems to recognize driving behaviors, helping in real-time traffic safety assessments.
  • A similarity-based neuro-fuzzy modeling for driving behavior recognition applying fusion of smartphone sensors
    • Authors: HR Eftekhari, M Ghatee
    • Journal: Journal of Intelligent Transportation Systems
    • Citations: 68
    • Year: 2019
    • Details: Describes a neuro-fuzzy modeling approach for driving behavior detection using fused smartphone sensor data.
  • Three-phases smartphone-based warning system to protect vulnerable road users under fuzzy conditions
    • Authors: RB Zadeh, M Ghatee, HR Eftekhari
    • Journal: IEEE Transactions on Intelligent Transportation Systems
    • Citations: 65
    • Year: 2017
    • Details: Develops a warning system using fuzzy logic for protecting road users, especially pedestrians and cyclists.
  • An inference engine for smartphones to preprocess data and detect stationary and transportation modes
    • Authors: HR Eftekhari, M Ghatee
    • Journal: Transportation Research Part C: Emerging Technologies
    • Citations: 65
    • Year: 2016
    • Details: Introduces an inference engine to classify transportation modes from smartphone data, improving mobility tracking.
  • Optimal network design and storage management in petroleum distribution network under uncertainty
    • Authors: M Ghatee, SM Hashemi
    • Journal: Engineering Applications of Artificial Intelligence
    • Citations: 60
    • Year: 2009
    • Details: Proposes a model for optimizing petroleum distribution networks, considering uncertainty factors in supply chains.

 

Dr. Neil Phillips | Unconventional | Best Researcher Award

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Dr. Neil Phillips | Unconventional | Best Researcher Award

Research Fellow at Unconventional, University of the West of England, United Kingdom

Dr. Neil Phillips has a deep interest in understanding and improving systems, with a focus on the underlying technology and how it can be enhanced. They enjoy using scientific and mathematical methods to solve problems, including complex challenges. Their experience in industry and collaborative projects has equipped them with valuable skills, including commercial awareness, technical expertise, and academic proficiency. They are adept at working independently within broad guidelines and are willing to make tough decisions, seeking guidance when necessary. Dr. Phillips thrives in multidisciplinary teams and is driven to find innovative solutions to a variety of problems.

Professional Profiles:

Education:

Dr. Neil Phillips holds a Ph.D. from Cardiff University, where he focused on the application of High Temperature Superconductors to Electric Drives. He also completed his BEng with Honours in Electrical and Electronic Engineering at Cardiff University.

Employment:

Dr. Neil Phillips is a Research Fellow with a focus on advancing research in fungal analog electronics. His current role, which began in June 2023, involves undertaking a variety of tasks to advance research with real-world impact and enhance the student experience. He researches sustainable technologies that can transform the future, promote long-term economic growth and development, and improve the quality of built and natural environments. Prior to his current position, Dr. Phillips was a Research Fellow on the Engineered Living Materials (ELMs) EU project at UWE from November 2022 to May 2023. This project investigated the novel functionalities of ELMs, such as their inherent intelligent, adaptive, and self-healing properties. It was funded under the EIC Pathfinder Call for cutting-edge research projects in strategic areas. Before that, he served as a Research Fellow on the Fungal Architectures EU project at UWE from June 2021 to November 2022. This cross-disciplinary research project aimed to develop a fully integrated structural and computational living substrate using fungal mycelium for growing architecture. The project’s principal targets were growing monolithic structures at meter length scales and functionalizing the mycelium network to act as a computing device.

Skills:

Dr. Neil Phillips possesses a diverse skill set that includes an APM certificate in Project Management, creative problem-solving abilities using TRIZ, and a Six Sigma Green Belt. He is adept at 3D CAD and prototyping with 3D printing, as well as data acquisition and computer interfacing to instrumentation. Dr. Phillips is skilled in circuit design, particularly in power electronics and control, and has programming experience, including with Arduino. Additionally, he is proficient in website design, specifically with WordPress. He has also served as an evaluator for the Google Science Fair competition and as a reviewer for EPSRC bids.

Patents:

Dr. Neil Phillips has contributed significantly to scientific advancements through his inventions, as evidenced by his involvement in several patents. While some of his work remains confidential due to intellectual property rights and commercial agreements, his named inventions include a Drying Apparatus (EP1419296A1), an Automatic Balancing Device (WO05075726A1), a Motor (EP980599B1), Improvements Relating to Floor Cleaning Devices (WO0128401A1), an Electrical Machine (GB2362268B2), and a Power Conversion Apparatus (WO04057747A1). These patents reflect his innovative approach and expertise in various technological fields.

Award Winning:

Dr. Neil Phillips has received several prestigious awards recognizing his outstanding contributions to research and innovation. In 2022, he was awarded the research publication of the year in the Journal of Biological Engineering by the Institute of Biological Engineering for his paper on ‘Marimo actuated rover systems’. He also won UWE’s Vice-Chancellor’s Challenge Award in 2023/2024 for his project ‘Freezing Global Warming’, highlighting his commitment to addressing climate change. Additionally, Dr. Phillips received ‘The Application of the Year’ prize in 2019 from the International Membrane Computing Society for his innovative work. He further demonstrated his excellence in public engagement and knowledge exchange, winning UWE’s Public/Community and Knowledge Exchange Award in 2024 for his ‘Climate Change mitigation knowledge exchange with the public’ project, as well as the FET Public Engagement and Outreach Award in 2018/19 for enabling the public to use slime as a biosensor. These accolades underscore Dr. Phillips’ dedication to impactful research and his ability to engage with diverse audiences.

Publications:

  1. Evaporation, lifetime, and robustness studies of liquid marbles for collision-based computing
    • Authors: C Fullarton, TC Draper, N Phillips, R Mayne, BPJ de Lacy Costello
    • Citations: 51
    • Year: 2018
  2. Belousov–Zhabotinsky reaction in liquid marbles
    • Authors: C Fullarton, TC Draper, N Phillips, BPJ de Lacy Costello, A Adamatzky
    • Citations: 41
    • Year: 2019
  3. Liquid marble interaction gate for collision-based computing
    • Authors: TC Draper, C Fullarton, N Phillips, BPJ de Lacy Costello, A Adamatzky
    • Citations: 40
    • Year: 2017
  4. Performance enhancement of single and two phase SR drives using a capacitor boost circuit
    • Authors: JD Lewis, HR Bolton, NW Phillips
    • Citations: 37
    • Year: 1995
  5. Thermal switch of oscillation frequency in Belousov–Zhabotinsky liquid marbles
    • Authors: A Adamatzky, C Fullarton, N Phillips, B De Lacy Costello, TC Draper
    • Citations: 24
    • Year: 2019
  6. Towards experimental P-systems using multivesicular liposomes
    • Authors: R Mayne, N Phillips, A Adamatzky
    • Citations: 24
    • Year: 2019
  7. Power conversion apparatus
    • Authors: AC Clothier, S Greetham, MH Haywood, NJ Leighton, NW Phillips
    • Citations: 22
    • Year: 2008
  8. Liquid marble actuator for microfluidic logic systems
    • Authors: TC Draper, C Fullarton, N Phillips, BPJ de Lacy Costello, A Adamatzky
    • Citations: 20
    • Year: 2018
  9. Fungal electronics
    • Authors: A Adamatzky, P Ayres, AE Beasley, A Chiolerio, MM Dehshibi, A Gandia, …
    • Citations: 19
    • Year: 2022
  10. Mapping outcomes of liquid marble collisions
    • Authors: TC Draper, C Fullarton, R Mayne, N Phillips, GE Canciani, …
    • Citations: 16
    • Year: 2019