Open Project of Key Laboratory of Specialty Fiber Optics and Optical Access Networks, Shanghai University 2025-2026 - Total RMB50,000. (Project Title: Optimizing the Efficiency of Light Concentrators in Fiber Optic Daylighting System)
UTM Fundamental Research Grant 2024-2026 - Total RM69,075. (Project Title: Enhancing Fiber Optic Natural Daylighting System Efficiency: A Study on Lens Design, Illuminance Uniformity and Thermal Protection)
UTM Professional Development Research University 2023-2024 (Completed) - Total RM69,439. (Project Title: Flexible Optical Wearable Devices for Health Care Monitoring)
UTM Encouragement Grant 2021-2023 (Completed) - Total RM20,000. (Project Title: Development of Packaged Optical Fiber Flex Sensor for Musculoskeletal Rehabilitation Application
UTM Encouragement Grant 2019-2021 (Completed) - Total RM30,000. (Project Title: Miniaturized Vector Bend Sensor Based on Special Optical Fiber)
National Natural Science Foundation of China - Research Fund for International Young Scientists 2019 (Completed) - Total RMB200,000, (Project title: Multicore Fiber Sensor)
Research University Grant 2015-2015 (Completed) – Total RM50,000. (Project title: Optimized Heat Sink Design For Led Street Lantern Application)
Fundamental Research Grant Scheme 2014-2016 (Completed) – Total RM118,200. (Project title: Investigation of Resonant Response in Coated Fiber Laser Based Hydrophone)
Research University Grant 2012-2013 (Completed) – Total RM34,000. (Project title: Development of a Novel Optical Fiber Vibration Sensor for Coarse Wavelength Division Wavelength Multiplexing System)
Potential Academic Staff 2012-2013 (Completed) – Total RM20,000. (Project title: Development of embedding procedure of optical fiber sensors into complex composites structures for real-time health monitoring)
1. W. F. Wan Ahmad Zamri, M. Y. M. Noor, F. Iqbal, I. Yulianti, A. S. Abdullah, A. I. Azmi et al., "A passive quasi-distributed optical fiber sensor network based on time division multiplexing for remote discrete water level monitoring," Optical Fiber Technology, vol. 88, p. 103832, 2024. (Q2, IF=2.6)
2. H. J. Tung, R. K. Raja Ibrahim, A. I. Azmi et. al., “Fiber Laser Tuning By Means Of Nonthermal Plasma As A Temperature Regulator,” Microwave and Optical Technology Letters, vol. 66, no. 8, pp. e34297, 2024. (Q3, IF=1.0)
3. M. Y. M. Noor, A. Azizan, S.M. Saimon, A. I. Azmi et al., "Decision Tree Regression Supervised Machine Learning Assisted Large Dynamic Range Refractive Index Detection Using MMI Coreless Multimode Fiber Sensor," IEEE Sensors Journal, vol. 24, no. 8, pp. 12433-12440, 2024. (Q1, IF=4.3)
4. M. S. M. Gismalla et al., "Modelling and Performance Analysis of Visible Light Communication System in Industrial Implementations," CMC-Computers Materials & Continua, vol. 77, no. 2, pp. 2189-2204, 2023. (Q3, IF=2.0)
5. S. M. A. Musa, M. H. Dzulkifli, A. I. Azmi, and S. A. Ibrahim, "Embedded and Surface-Mounted Fiber Bragg Grating as a Multiparameter Sensor in Fiber-Reinforced Polymer Composite Materials: A Review," IEEE Access, vol. 11, pp. 86611-86644, 2023. (Q2, IF=3.9)
6. M.S.M. Gismalla, A. I. Azmi et. al. “Optimizing Optical Attocells Positioning of Indoor Visible Light Communication System” CMC-Computers Materials & Continua, vol. 74, no. 2, pp. 3607-2625, 2023. (Q2, IF=3.860)
7. L. Chaganti, N. M. Saman, M. H. Ahmad, M. Y. M. Noor, and A. I. Azmi, "PVAc based SCMS optical fiber humidity sensor and its application in transformer oil," Optical Fiber Technology, vol. 80, Oct 2023. (Q2, IF=2.7)
8. S. M. Saimon, M. Y. M. Noor, A. I. Azmi et. al. “Single-Mode-Multimode Silica Rod-Single-Mode High Refractive Index Fiber Sensor” IEEE Sensors, vol. 22, no. 11, pp. 10559 – 10566, 2022. (Q1, IF=4.325)
9. M.S.M. Gismalla, A. I. Azmi et. al. “Survey on Device to Device (D2D) Communication for 5GB/6G Networks: Concept, Applications, Challenges, and Future Directions” IEEE Access, vol. 10, pp. 30792-30821, 2022. (Q2, IF=3.476)
10. S. M. Saimon, M. Y. Mohd Noor, A. I. Azmi et. al. “A High Sensitivity Refractive Index Sensor Based on Leaky Mode Coupler of MMI” Photonics Technology Letter, Early Access, 2021. (Q2, IF=2.468)
11. N. Hussain, M. R. Salim, A. I. Azmi, M. Y. Mohd Noor, A. S. Abdullah, F. Ahmad, M. H. Ibrahim, “Performance of Graphene Nanopowder-Polyvinyl Alcohol in Optical Pulse Generation at 1.5 Micron Region” Photonics Letters of Poland, vol. 13, no. 3, pp. 55-57, 2021. (Q4, IF=0.571)
12. S. M. Aishah Musa, A. I Azmi, A. S. Abdullah, M. Y. Mohd Noor, R. K. Raja Ibrahim, “Dual Sensing Points Mach–Zehnder Interferometer for Refractive Index and Discrete Liquid Level Sensing“ Optik, vol. 241, pp. 166974(1-13), 2021. (Q2, IF=2.443)
13. S. M. Saimon, M. Y. M. Noor, A. S. Abdullah, M. R. Salim, M. H. Ibrahim, A. I. Azmi, N. H. Ngajikin, M. H. Ahmad and A. F. Othman, “Simultaneous Measurement of High Refractive Index and Temperature Based on SSRS-FBG” Photonic Technology Letter, vol. 33, no. 14, pp. 715-718, 2021. (Q2, IF=2.468)
14. A. I. Azmi, A. S. Abdullah, M. Y. Mohd Noor, M. H. Ibrahim, R. K. Raja Ibrahim, T. Tan, J. Zhang, “Dynamic Bending and Rotation Sensing Based on High Coherence Interferometry in Multicore Fiber, “Optics & Laser Technology, vol. 135, pp. 106716 (1-8), 2021. (Q1, IF=3.867)
15. A. Usman, N. Zulkifli, M. R. Salim, K. Khairi, A. I. Azmi, “Optical Link Monitoring in fibre-to-the-x Passive Optical Network (FTTx PON): A comprehensive survey,” Optical Switching and Networking, vol. 39, pp. 100596, 2020. (Q2, IF=2.577)
16. L. G. P. K. Chaganti, M. H. Ahmad, M. A. Mohamed Piah, M. Y. Mohd Noor, A. I. Azmi, “Fiber Optic Acoustic Sensor Based on SMS Structure With Thin Polymer Diaphragm for Partial Discharge Detection,” IEEE Access, vol. 8, pp. 188044 - 188055, 2020. (Q1, IF=3.745)
17. A. I. Azmi et. Al “Improvement Of Measuring Range In Fiber Interferometric Liquid Level Sensor By Employing Digital Filter For Mode Selectivity,” Microwave and Optical Technology Letters, vol. 62, no. 9, pp. 3042-3050, 2020. (Q4, 0.957)
18. N. C. Abd Rashid, N. H. Ngajikin, A. I. Azmi, R. Arsat, S. Isaak, N. A. Cholan and N. E. Azmi, “Spectrophotometer with Enhanced Sensitivity for Uric Acid Detection, Chinese Optics Letter, vol. 17, no. 8, pp. 081701, 2019. (Q3, IF=1.907)
19. N. F. Baharin, S. M. A. Musa, A. I. Azmi, M. A. A. Razak, A. S. Abdullah, M. R. Salim and M. Y. Mohd Noor, “Compact and High Sensitivity Low-Temperature Sensor Based on Coreless Silica Fiber Mach-Zehnder interferometer, Microwave and Optical Technology Letters, vol. 60, no. 8, pp. 1929-1934, June 2018. (Q4, IF=0.948)
20. S. M. A. Musa, N. F. Baharin, A. I. Azmi, R. K. Raja Ibrahim, A. S. Abdullah. M. Y. Mohd Noor and Haifeng Qi, “Double-Clad Fiber Michelson Interferometer for Measurement of Temperature and Refractive Index, Microwave and Optical Technology Letters, vol. 60, no. 4, pp. 822-827, Apr 2018. (Q4, IF=0.948)
21. N. F. Baharin, A. I. Azmi, A. S. Abdullah and M. Y. M. Noor, “Refractive Index Sensor Based on Lateral-Offset of Coreless Silica Interferometer,” Optics and Laser Technology, vol. 99, pp. 396-401, Feb 2018. (Q2, IF=2.503)
22. O. F. Ameen, M. H. Younus, M. S. Aziz, A. I. Azmi, R. K. R. Ibrahim and S. K. Ghoshal, “Graphene Diaphragm Integrated FBG Sensors for Simultaneous Measurement of Water Level and Temperature,” Sensor and Actuator A: Physical vol. 252, pp. 225–232, Dec 2016. (Q1, IF=2.201)
23. N. Zazwani, R. K. R. Ibrahim, S. M. A. Musa, R. Hosseinian, A. I. Azmi, N. Ahmad, “Reactor Temperature Profiles Of Non-Thermal Plasma Reactor Using Fiber Bragg Grating Sensor,” Sensors and Actuators A: Physical, vol. 244, pp. 206-212, June 2016. (Q1, IF=2.201)
24. T. C. E. Marcus, M. H. Ibrahim, N. H. Ngajikin, A. I. Azmi, “Transmittance Optimization For High Sensitivity Ozone Concentration Measurement,” Sensors and Actuators B: Chemical, vol. 229, pp. 528-533, June 2016. (Q1, IF=4.758)
25. A. I. Azmi, S. Abdullah, M. Y. Mohd Noor, A. S. Mohd Supa'at, N. M. Kassim and N. H. Ngajikin, “Intensity-modulated temperature sensor based on fiber interferometer with optical bandpass filtering,” Microwave and Optical Technology Letters, vol. 58, no. 6, 1458-1462, 28 March 2016. (Q4, IF=0.545)
26. T. C. E. Marcus, M. H. Ibrahim, N. H. Ngajikin, A. I. Azmi, “Optical Path Length And Absorption Cross Section Optimization For High Sensitivity Ozone Concentration Measurement,” Sensors and Actuators B: Chemical, vol. 221, pp. 570-575, December 2015. (Q1, IF=4.097)
27. M. Y. Mohd Noor, A. I. Azmi, A. S. Abdullah, A. S. Supa'at, N. M. Kassim, M. H. Ibrahim and N. H. Ngajikin, “High Sensitivity of Balloon-Like Bent MMI Fiber Low-Temperature Sensor,” Photonic Technology Letter, vol. 27, no. 18, pp. 1989 – 1992, June 2015. (Q2, IF=2.110)
28. T. C. E. Marcus et. al., “Alternative Wavelength for Linearity Preservation of Beer Lambert Law in Ozone Concentration Measurement,“ Microwave and Optical Technology Letters, vol. 57, no. 7, pp. 1768, Apr 2015. (Q4, IF=0.568)
29. M. R. Salim, M. Yaacob, M. H. Ibrahim, A. I. Azmi et. al., “An optical spectroscopy based reflective sensor for CO2 measurement with signal to noise ratio improvement,” Journal of Optoelectronics and Advanced Material, vol. 17, no. 5-6, pp. 519-525, June 2015. (Q4, IF=0.429)
30. M. Y. Mohd Noor, N. M. Kassim, A. S. M. Supaat, M. H. Ibrahim, A. I. Azmi, A. S. Abdullah and G. D. Peng, “Temperature-Insensitive Photonic Crystal Fiber Interferometer for Relative Humidity Sensing Without Hygroscopic Coating,” Measurement Science and Technology, vol. 24, pp 105205, Aug 2013. (Q1, IF=1.435)
31. Raju, A. I. Azmi and B. G. Prusty, “Acoustic Emission Techniques for Failure Characterisation in Composite top-hat Stiffeners,” Journal of Reinforced Plastics and Composites, vol. 31, no. 7, pp. 495-516, Feb 2012. (Q2, IF=0.727)
32. S. Wenjuan, G. Aihuang, L. Yang, A. I. Azmi and G. D. Peng, "Optimizing the Data Acquisition Rate for a Remotely Controllable Structural Monitoring System with Parallel Operation and Self-Adaptive Sampling," Smart Material and Structure, vol. 20, no. 6, p. 065012, May 2011. (Q1, IF=2.096)
33. A. I. Azmi, D. Sen, W. Sheng, J. Canning and G. D. Peng, “Performance Enhancement of Vibration Sensing Employing Multiple Phase-Shifted FBG,” Journal of Lightwave Technology, vol. 29, no. 22, pp. 3453-3460, Nov 2011. (Q1, IF=2.259)
34. A. I. Azmi, D. Sen, and G. D. Peng, “Sensitivity Enhancement in Composite Cavity Fiber Laser Hydrophone,” Journal of Lightwave Technology, vol. 28, no. 12, pp. 1844-1850, Apr 2010. (Q1, IF=2.185)
1. S. M. A. Musa, A. I. Azmi, M. Y. M. Noor and R. K. R. Ibrahim, “Principle of Fiber Interferometer Sensor, In: M. R. Salim, Optical Communication Networks, Devices and Sensors, UTM Press, 2022.
2. A. I. Azmi, M. Y. M. Noor, A. Hamzah and N. M. Yusoff, “Review on Fiber Grating Based Sensing Techniques, In: A. S. Abdullah, Optical Devices and Sensors (Series 4), UTM Press, 2016.
3. A. I. Azmi, M. Y. M. Noor, N. H. Ngajikin and M. H. Ibrahim, “Intensity-Type Acoustic Sensor Based on Multiple Subchannels for Enhanced Sensitivity, In: A. S. Abdullah, Optical Devices and Sensors (Series 4), UTM Press, 2016.
4. A. I. Azmi and M. Y. Mohd Noor, “Modeling of Apodized Distributed Feedback Fiber Laser, In: A. I. Azmi, Optical Devices and Sensors (Series 1), UTM Press, 2015.
5. M. Y. Mohd Noor, A. I. Azmi and N. M. Kassim, “Optical Humidity Sensor Based on Absorption Spectroscopy Using Self Reference Scanning Scheme and the Potential of Twin Holes Fiber as Sensing Element, In: A. I. Azmi, Optical Devices and Sensors (Series 2), UTM Press, 2015.
6. A. I. Azmi, M. Y. Mohd Noor, H. Qi, K. Liu and G. D. Peng, “Fiber Laser-Based Sensing Technologies, In: Ginu Rajan, Optical Fiber Sensors Advanced Techniques and Applications, CRC Press, 2015.
7. Raju, A. I. Azmi and B. G. Prusty, Acoustic Emission Failure Characterisation of Advanced Composites Using Piezoelectric Sensors and Fibre Optic Sensors, In: Justin K. Burnett, Theory and Uses of Acoustic Emissions, Nova Publishers, 2012.
Fiber Optic Hands-On Training Lab Sheet: Fiber Splicing (IP/CR/2016/2207 - Main inventor), 2016.
Fiber Optic Hands-On Training Lab Sheet: Fiber Devices Characterization (IP/CR/2017/0003 - Main inventor), 2017.
Fiber Optic Hands-On Training Lab Sheet: Measurement of Fiber Spectral Attenuation Using the Cutback Method (IP/CR/2017/0655 - Main inventor), 2017.
Optical Fiber Communication Training Module (IP/CR/2018/0494 - Co-inventor), 2018.
Fiber Optic Hands-On Training: Measurement of Fiber Bragg Grating Temperature Response (IP/CR/2019/0021 - Main inventor), 2019
Fiber Optic Hands-On Training: Fiber Termination (IP/CR/2019/0024 - Main inventor), 2019.
Photonics Experiment Series: Mode Field Diameter of Step Index Single Mode Fiber (IP/CR/2019/0026 - Main inventor), 2019.
Optical Fiber Access Network Training Module (IP/CR/00532 - Co-inventor), 2020.
Wavelength Division Multiplexing Spectra and Crosstalk Measurement (IP/CR/00571 - Main inventor), 2020.
Fiber Optic Enclosure Termination (IP/CR/00671 - Main inventor), 2020.
Method for Measurement of Fiber Bending in Passive Optical Networks (PON) using Fiber Bragg Grating (FBG) Sensor (IP/CR/01629 - Co-inventor), 2020.
Method for Measurement of Fiber Strain in Passive Optical Network (PON) using Fiber Bragg Grating (FBG) Sensor (IP/CR/01630 - Co-inventor), 2020.
Design of Multimode Interference Thermo-Optic Switch With Integrated Variable Optical Attenuator (IP/CR/01833 - Co inventor), 2021.
Modelling and Design of Photovoltaic Cell With Improved Efficiency Based On Organic Material P3HT:PCBM (IP/CR/01936 - Co-inventor), 2021.
Optimized Mixing Process of Graphene Oxide (GO) and SU-8 Polymer for Optical Waveguide Application (IP/CR/02248 - Co-inventor), 2021.
Determination of Laser Wavelength by Using Modified Mach-Zehnder Interferometer (IP/CR/02260 - Main inventor), 2021.