Fayyaz Ahmad | Advance Fixed point Theory with Applications | Best Researcher Award

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 Mr. Fayyaz Ahmad | Advance Fixed point Theory with Applications | Best Researcher Award

Assistant Professor at Govt. Associate College Mankera, Bhakkar, Pakistan

Fayyaz Ahmad is an accomplished mathematician from Darya Khan, District Bhakkar, Punjab, Pakistan . He is currently serving as an Assistant Professor in Mathematics at Government Associate College (GAC) Mankera, Bhakkar . With over 15 years of academic experience, Fayyaz has demonstrated exceptional dedication to mathematics education and research . He completed his PhD in Mathematics (Thesis Submitted) from the University of Lakki Marwat (ULM), Khyber Pakhtunkhwa (KPK) , focusing on iterative approximation processes. His research primarily centers on fixed point theory, nonlinear mappings, and numerical analysis . Fayyaz’s extensive teaching journey includes positions at ILM College, Sargodha, and Government Postgraduate College (GPGC), Bhakkar . He has authored several impactful publications in renowned journals and continues to contribute to mathematical sciences with a passion for solving complex problems and mentoring students

Publication Profile

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Education :

Fayyaz Ahmad’s academic journey reflects a strong foundation in mathematics and continuous advancement in his field . He earned his PhD (Thesis Submitted) from the University of Lakki Marwat (2021–2024) with a focus on “Iterative Approximation Processes for Fixed Point Problems in Some Distance Spaces” . His M.Phil (2013–2015) from the Institute of Southern Punjab, Multan, explored “Numerical Simulation of Biofluid Flow in Channel due to Pressure Gradient” , achieving a 3.81/4.00 GPA . Fayyaz completed his MSc in Mathematics at the University of Sargodha (2005–2007) with a 3.45/4.00 GPA . His undergraduate studies culminated in a BSc from the University of the Punjab, Lahore (2001–2004) with 63% . He also completed his F.Sc (1999–2001) and SSC (1996–1998) from BISE, Sargodha, each with a 69% score . His educational path highlights a consistent focus on applied mathematics and computational methods .

Experience :

Fayyaz Ahmad has amassed significant teaching and research experience over the past 16 years . He began as a Lecturer in Mathematics at ILM College, Sargodha (2008–2009) . From 2009 to 2020, he served at GPGC Bhakkar, fostering mathematical understanding among students . His promotion to Assistant Professor at GPGC (2020–2021) marked a recognition of his teaching excellence and research contributions . To further his academic pursuits, Fayyaz took study leave (2021–2024) to complete his PhD at ULM, KPK . Since December 2024, he has been an Assistant Professor at GAC Mankera, Bhakkar, continuing to inspire students and advance mathematical research . His career reflects dedication to academic excellence, curriculum development, and mentorship, enriching the mathematics community .

Research Focus :

Fayyaz Ahmad’s research focuses on fixed point theory, nonlinear mappings, iterative approximation processes, and numerical analysis . His PhD work centers on developing novel iterative schemes to solve fixed point problems in complex distance spaces, with applications in various mathematical and real-world contexts . Fayyaz explores convergence properties and stability analyses of iterative methods, crucial for solving nonlinear functional equations and optimization challenges . His research extends to computational techniques and their applications in biofluid dynamics, fractional differential equations, and functional analysis . By integrating theoretical advancements with practical solutions, he aims to address problems in engineering, physics, and applied sciences . Collaborating with international researchers, Fayyaz is committed to pushing the boundaries of mathematical problem-solving methodologies .

Publication :

“On Fixed Point Convergence Results for a General Class of Nonlinear Mappings with a Supportive Application”

Authors: F. Ahmad, K. Ullah, J. Ahmad, O.M. Kalthum S.K. Mohamed, A. Bakery

Year: 2023

 

“On an Efficient Iterative Scheme for a Class of Generalized Nonexpansive Operators in Banach Spaces”

Authors: F. Ahmad, K. Ullah, J. Ahmad, H. Bilal

Year: 2023

 

“A Novel Iterative Process for Numerical Reckoning of Fixed Points via Generalized Nonlinear Mappings with Qualitative Study”

Authors: F. Ahmad, K. Ullah, J. Ahmad, H.A. Hammad, R. George

Year: 2024

 

“Computational Analysis of a Novel Iterative Scheme with an Application”

Authors: F. Ahmad, K. Ullah, J. Ahmad, A. Aloqaily, N.M. Mlaiki

Year: 2024

 

“Convergence Analysis of an Iteration Process for a Class of Generalized Nonexpansive Mappings with Application to Fractional Differential Equations”

Authors: K. Ullah, S.T.M. Thabet, A. Kamal, J. Ahmad, F. Ahmad

Year: 2023

 

“Approximating Fixed Points of Operators Satisfying the (Bγ,µ) Condition”

Authors: K. Ullah, M. Abbas, J. Ahmad, F. Ahmad

Year: 2024

 

“Approximation Results for Generalized Non-Expansive Mappings and Their Applications in Various Nonlinear Problems”

Authors: F. Ahmad, J.K. Kim, K. Ullah, J. Ahmad

Year: Accepted for publication in 2025

 

Conclusion

Fayyaz Ahmad’s dedication to fixed-point theory and numerical analysis, along with a solid publication record, makes him a strong contender for the Best Researcher Award. His work showcases both theoretical depth and practical relevance. While further diversification and outreach could enhance his research footprint, his current achievements justify his nomination for this prestigious recognition.

 

Rispandi | Optical sensing technology | Best Researcher Award

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Mr.Rispandi | Optical sensing technology | Best Researcher Award

Mr.  Rispandi,Lecturer, Indonesia.

Mr. Rispandi is a promising researcher with a strong academic background, an innovative approach to sensor technology, and leadership experience. His contributions to optical gas sensors and related technologies, particularly for healthcare and environmental monitoring, are commendable. His publications and technical skills further strengthen his candidacy for the Best Researcher Award. However, expanding his collaborations and seeking funding for his projects could further enhance his impact in the field.

Publication Profile

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Education :

Rispandi holds a Master of Science in Mechanical Engineering from Ming Chi University of Technology, New Taipei City, Taiwan, completed between February 2021 and December 2022. His master’s research focused on the Development of New Optical Gas Sensors Based on Perovskite Quantum Dots, with key research areas including optical sensors, gas sensors, 3D printing, optical metrology, and electrospun nanofibers. He achieved an impressive GPA of 4.17/4.3. Prior to this, he earned a Bachelor of Engineering in Mechanical Engineering from the University of Bengkulu, Indonesia (August 2015 – December 2019). His undergraduate research focused on the Manufacture, Assembly, and Experimental Test of Generator Stand on the Translational Motion–Rotation for Sea Wave Power Plants.

Experience :

Rispandi has accumulated extensive research and teaching experience in mechanical engineering, particularly in optical sensor technology. Since February 2021, he has worked as a Research Assistant at Ming Chi University of Technology, under the guidance of Prof. Cheng-Shane Chu. His research involves the development of ratiometric optical gas sensors, perovskite quantum dots, electrospun fiber-based sensors, and biomedical applications of gas detection. He has worked on various projects related to ammonia, oxygen, and nitric oxide sensors utilizing advanced optical and nanomaterial techniques.Additionally, he served as a Teaching Assistant in the Optical Metrology Lab at Ming Chi University of Technology from February 2021 to 2022. His role involved assisting with experiments related to electro-optic amplitude modulation, interferometry (Mach-Zehnder, Sagnac, and Michelson), diffraction, and optical grating techniques.Before pursuing his master’s degree, he worked as a Research Engineer at the University of Bengkulu (August 2019 – February 2020), where he contributed to the development of sea wave power plants, performing stress analysis using the finite element method (FEM) and conducting performance evaluations of wave energy conversion systems.

Research Focus :

Rispandi’s research focuses on optical gas sensing technologies, specifically the development of optical sensors using perovskite quantum dots and electrospun fibers. His work has applications in healthcare, biomedical diagnostics, environmental monitoring, and renewable energy systems. He specializes in optical fiber-based gas sensors, ratiometric detection methods, and materials engineering for sensor enhancement. His research has led to significant contributions in the detection of ammonia, oxygen, and nitric oxide gases using innovative optical approaches.

Skills and Expertise:

Rispandi has a strong background in mechanical design and simulation, with expertise in Autodesk Inventor, stress analysis, finite element method (FEM), and mechanical engineering analysis (MEH). He is proficient in optical fiber sensor technology, gas sensing techniques, optical measurement, and optical metrology. His technical skills extend to 3D printing, electrospinning, and advanced analytical methods. He also possesses strong competencies in problem-solving, leadership, communication, and strategic planning.

Awards:

Certificate of Appreciation as Governor of the Most Valuable Region in FORMMIT Awards, Taiwan (2023) for his leadership in student organizations.Awardee of the Master’s Program Scholarship at Ming Chi University of Technology, Taiwan (2021) for academic excellence.,Bidikmisi Scholarship Awardee from the Ministry of Education and Culture, Republic of Indonesia (2015), a competitive scholarship for outstanding students.

 

Publication :

  • Mask Detection System with Computer Vision-Based on CNN and YOLO Method Using Nvidia Jetson Nano

    • Authors: AA Hakim, E Juanara, R Rispandi
    • Journal: Journal of Information System Exploration and Research 1 (2)
    • Citations: 15
    • Year: 2023

 

  • Optical dual gas sensor for simultaneous detection of nitric oxide and oxygen

    • Authors: R Mesin, CS Chu
    • Journal: Chemosensors 11 (8), 454
    • Citations: 10
    • Year: 2023

 

  • Optical fluorescent sensor based on perovskite QDs for nitric oxide gas detection

    • Authors: D Kumar, R Mesin, CS Chu
    • Journal: Applied Optics 62 (12), 3176-3181
    • Citations: 10
    • Year: 2023

 

  • Ratiometric optical oxygen sensor based on perovskite quantum dots and Rh110 embedded in an ethyl cellulose matrix

    • Authors: R Mesin, CS Chu, ZL Tseng
    • Journal: Optical Materials Express 13 (4), 945-955
    • Citations: 9
    • Year: 2023

 

  • Finite element method for stress analysis in the frame holder of generator translation and rotation motion on vertical direction mechanism for sea wave power plant

    • Authors: Y Suhartini, A Indriani
    • Journal: IOP Conference Series: Materials Science and Engineering 1034 (1), 012008
    • Citations: 7
    • Year: 2021

 

  • Performance of Generator Translation and Rotation Motion on Vertical Direction for Sea Wave Power Plant

    • Authors: A Indriani, Y Suhartini
    • Journal: IOP Conference Series: Materials Science and Engineering 1007 (1), 012044
    • Citations: 4
    • Year: 2020

 

  • Analisis tegangan pada struktur mesin pencacah plastik menggunakan metode elemen hingga (MEH) dan uji kerja mesin pencacah plastik

    • Authors: H Hendra, A Indriani, A Mardian, N Kholik, R Rispandi, Y Suhartini
    • Journal: METAL: Jurnal Sistem Mekanik dan Termal 5 (1), 9-16
    • Citations: 3
    • Year: 2021

 

  • Stress analysis on the frame holder of generator translation motion on horizontal direction for sea wave power plant using finite element method (FEM)

    • Authors: A Indriani, S Yenni, W Aswata, A Tanjung
    • Journal: IOP Conference Series: Materials Science and Engineering 909 (1), 012033
    • Citations: 2
    • Year: 2020

 

  • Optical dual gas sensor for biomedical monitoring of NO and O2 based on electrospun fibers containing CsPbBr3 QDs and PtTFPP

    • Authors: CS Chu, S Nugroho, MI Ammarullah
    • Journal: Results in Optics 18, 100781
    • Citations: 1
    • Year: 2025

 

  • Enhanced sensing properties of optical ammonia sensor based on electrospun fibers containing Eosin-Y and silver nanoparticles

  • Authors: CS Chu, MS Simanjuntak
  • Journal: Materials Today Communications 41, 110524
  • Citations: 1
  • Year: 2024

 

 

Conclusion

Mr. Rispandi is highly deserving of the Best Researcher Award due to his dedication, academic excellence, and substantial contributions to the development of cutting-edge sensor technologies. With some additional focus on interdisciplinary research and funding acquisition, he has the potential to make even greater strides in his field. His future endeavors are poised to have a lasting impact on both scientific communities and industry applications.