Chan Hwang See
chan hwang see

Prof Chan Hwang See BEng(Hons) PhD CEng FIET SMIEEE FHEA

Professor

 0131 455 2683

  C.See@napier.ac.uk

  

About me

Biography

Chan H. See received a first class B.Eng. Honours degree in Electronic, Telecommunication and Computer Engineering and a Ph.D. degree from the University of Bradford, UK. Currently, He is a Professor in School of Computing, Engineering & the Built Environment, Edinburgh Napier University, UK. Previously, he was head of Electrical Engineering & Mathematics within the School of Engineering and the Built Environment from 2019 to 2022. His teaching covers embedded systems, instrumentation Systems, Communication Electronics, Mobile and microwave communications, and Wireless Sensors and IoT.
His research interests cover Internet of Things (IoTs), wireless sensor network system design, acoustic/microwave sensors, antennas, microwave wireless power transfer, computational electromagnetics, and microwave circuits. He has published over 300 peer-reviewed journal articles and conference papers. He is a co-author for one book and five book chapters. He was named in the recent 2022, 2023 and 2024 edition of the Stanford University list of World Top 2% Scientists.
Since 2023, he has served as the UK representative for Commission K: Electromagnetics in Biology and Medicine within International Union of Radio Science (URSI). Dr. See was awarded a IEEE Malaysia AP/MTT/EMC Joint Chapter- Best Paper Award in 2020. He was also a recipient of two Young Scientist Awards from the International Union of Radio Science (URSI, US) and Asia-Pacific Radio Science Conference (AP-RASC, Japan) in 2008 and 2010, respectively. He was awarded a certificate of excellence for his successful Knowledge Transfer Partnership (KTP) with Yorkshire Water on the design and implementation of a wireless sensor system for sewerage infrastructure monitoring in 2009. Dr. See is a Chartered Engineer (CEng), Senior member of Institute of Electrical and Electronics Engineers (SMIEEE), Fellow of the Institution of Engineering and Technology (FIET). He is also a Fellow of The Higher Education Academy (FHEA), a full member of the EPSRC Review College, an Associate Editor for IEEE Access and an Editor for Journal of Electronics and Electrical Engineering, Scientific Reports, Peerj Computer Science and Wireless Power Transfer journals. According to Web of Science, he has completed over 500 verified reviews and over 300 verified editor records.

Selected publications as follows:
1. F. Paul et al. "RF-sputtered Al-doped ZnO-based transparent electrochemical capacitors developed as a structural energy storage to replace double-glazed window for a smart building." Applied Physics Letters 126.13, 2025, doi: 10.1063/5.0255229
2.A.Zirdour, M. Ayad, M. Alibakhshikenari, C.H. See et al. “Wideband Endfire Antenna Array for 5G mmWave Mobile Terminals,” in IEEE Access, vol. 12, pp. 39926-39935, 2024, doi: 10.1109/ACCESS.2024.3375811
3. M. H. Jwair et al., "Intelligent Metasurface Layer for Direct Antenna Amplitude Modulation Scheme," in IEEE Access, vol. 11, pp. 77506-77517, 2023, doi: 10.1109/ACCESS.2023.3297264.
4. M.Alibakhshikenari et al., “Dual-Polarized Highly Folded Bowtie Antenna with Slotted Self-Grounded Structure for Sub-6 GHz 5G Applications,” IEEE Trans. Antennas and Propagations, vol.70, no. 4, pp.3028-3033, April 2022. doi: 10.1109/TAP.2021.3118784.
5.M.Alibakhshikenari et al., “Singular Integral Formulations for Electrodynamic Analysis of Metamaterial-Inspired Antenna Array,” IEEE Antennas and Wireless Propagation Letters, vol.20, no.2, pp.179-183, 2021
6. M.Alibakhshikenari et al., “Optimum Power Transfer in RF Front End Systems Using Adaptive Impedance Matching Technique,” Scientific Reports, vol.11, Article no. 11825, June 2021.
7. C.H. See et al., “An Acoustic Sensor for Combined Sewer Overflow (CSO) Screen Condition Monitoring in a Drainage Infrastructure”, Sensors 2021, 21(2), 404, https://doi.org/10.3390/s21020404
8.I.M. Danjuma et al., “Design and Optimization of a Slotted Monopole Antenna for Ultra-wide Band Body Centric Imaging Applications”, IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology, vol.4, no.2, pp. 140-147, June 2020.
9.N.Soin, P.Zhao, A. Kumar, L.Shi et. al ,“Expanding the portfolio of tribo-positive materials: aniline formaldehyde condensates for high charge density triboelectric nanogenerators,” Nano Energy, vol.67, pp.1-13, Jan. 2020.
10.C.Zebiri et al., “Antenna for Ultra-Wideband Applications with Non-Uniform Defected Ground Plane and Offset Aperture-Coupled Cylindrical Dielectric Resonators,” IEEE Access, vol.7, no. 1, pp.166776-166787, Dec. 2019
11.C.H. See et al., “Design of Mobile Band Subsurface Antenna for Drainage Infrastructure Monitoring”, IET Microwaves, Antennas & Propagation, vol.13, no. 13, pp.2380-2385, Nov. 2019
12. A. Bati et al., “Dynamic Response Analysis of a Class E2 Converter for Low Power Inductive Links,” IET Circuits, Devices & Systems, vol.13, no.3, pp.399-405, May 2019
13.C.H.See et al., “Link Budget Maximization for a Mobile-Band Subsurface Wireless Sensor in Challenging Water Utility Environments”, IEEE Trans. Industrial Electronics, vol.65, no.1, pp.616-625, Jan.2018, DOI: 10.1109/TIE.2017.2719602
14. A.F. Mirza, C.H. See, et al., “ An Active Microwave System for Near Field Imaging,” IEEE Sensors Journal, vol.17, no.9, pp.2749-2758, May 2017
15. C.H.See et al., “Calibration Model for Detection of Potential Demodulating Behaviour in Biological Media Exposed to RF Energy,” IET Science, Measurement and Techniques ,vol.11, no.7, pp.900-906, October 2017
16.H. Plihal et al., “A novel method for rapid inspection of sewer networks: Combining acoustic and Optical means,” Urban Water Journal, vol.13, no.1, pp.3-14, January 2016.
17.F. Zhu et al., “Ultra-Wideband Dual-Polarized Patch Antenna with Four Capacitively Coupled Feeds,” IEEE Trans. Antennas and Propagation, vol.62, no.5, pp.2240-2249, May 2014.
18. A. Abu-Almal et al., “Statistical Analysis of Refractivity Gradient and βo Parameter in the Gulf region, IEEE Trans. Antennas and Propagation, vol.61, no.12, pp.6250-6254, Dec. 2013.
19.F. Zhu et al., “Multiple Band-Notched UWB Antenna with Band-Rejected Elements Integrated in the Feed Line,” IEEE Trans. Antennas and Propagation , vol.61, no.8, pp.3952-3960, August 2013
20. C.H. See et al. ,“A Low-Profile Ultra-Wideband Modified Planar Inverted-F Antenna,” IEEE Trans. Antennas and Propagation, vol.61, no. 1, pp.100-108, Jan. 2013.
21. A.G.Alhaddad et al., “Folded Loop Balanced Coplanar Antenna for WLAN Applications,” IEEE Trans. Antennas and Propagation, vol.60, no.10, pp. 4916-4920, Oct. 2012.
22. F. Zhu et al., “Miniaturized Tapered Slot Antenna with Signal Rejection in 5-6 GHz Band Using a Balun,” IEEE Antenna Wireless Propagation Letters, vol.11, pp.507-510, May 2012.
23.C.H. See et al., “The Design of a Resistively Loaded Bowtie Antenna for Applications in Breast Cancer Detection Systems,” IEEE Trans. Antennas and Propagation, vol.60, no.5, pp.2526-2530, May 2012.
24.C.H. See et al. ,“A Low Power Wireless Sensor Network for Gully Pot Monitoring in Urban Catchments”, IEEE Sensors Journal, vol.12, no. 5, pp.1545-1553, May 2012.
25.C.H. See et al., “Wideband Printed MIMO/Diversity Monopole Antenna for WiFi/WiMAX Applications,” IEEE Trans. Antennas and Propagation, vol.60, no.4, pp.2028-2035, April 2012
26.C.H.See et al., “A Broadband Dual Planar Inverted F-Antenna for WLAN/WiMAX and Lower-band UWB Wireless Applications”, IET Microwaves, Antennas & Propagation, vol.5, no.6, pp.644-650, 2011.
27.C.H.See et al., “A Planar Inverted F-L Antenna (PIFLA) with a Rectangular Feeding Plate for Lower-band UWB Applications”, IEEE Antenna Wireless Propagation Letters, vol.9, pp.149-151,2010.
28.C.H.See et al., “A Crescent-shaped Multiband Planar Monopole Antenna for Mobile Wireless Applications”, IEEE Antenna Wireless Propagation Letters, vol.9, pp.152-155, 2010.
29.R. A. Abd-Alhameed et al., "A Wire-Grid Adaptive Meshing Program for Microstrip Patch Antenna Designs Using a Genetic Algorithm", IEEE Antennas and Propagation Magazine, vol.51, no.1, pp. 147-151, Feb 2009
30.C.H. See et al., “Dual-Frequency Planar Inverted F-L-Antenna (PIFLA) for WLAN and Short Range Communication Systems”, IEEE Transactions on Antennas and Propagation, vol.56, No.10, pp.3318-3320, Oct. 2008
31.C.H. See et al., “Computation of Electromagnetic Fields in Assemblages of Biological Cells Using a Modified Finite Difference Time Domain Scheme”, IEEE Transactions on Microwave Theory and Techniques, vol.55, no.9, pp.1986-1994, Sept. 2007.

Online Research Profile:
1.ORCID ID
Available: https://orcid.org/0000-0001-8439-7321
2.Google Scholar
Available: https://scholar.google.co.uk/citations?user=d0U4T-UAAAAJ&hl=en
3.ResearchGate
Available: https://www.researchgate.net/profile/Chan-See
4.Scopus
Available: https://www.scopus.com/authid/detail.uri?authorId=16025593100
5.Web of Science
Available: https://www.webofscience.com/wos/author/record/681324
6.AD Scientific Index
Available: https://www.adscientificindex.com/scientist.php?id=1361251
7. ScholarGPS
Available: https://scholargps.com/scholars/15638315198011/chan-h-see?e_ref=2ab540366057a4e120aa
8. Topresearcherlist.com
Available: https://topresearcherslist.com/Home/Profile/952788
9. Research.com
Available: https://research.com/u/chan-h-see
10. Scilit.com
Available: https://www.scilit.com/scholars/17963842

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339 results

Nanocellulose Extraction from Biomass Waste: Unlocking Sustainable Pathways for Biomedical Applications

Journal Article
Ghamari, M., Suvish, Hwang See, C., Yu, H., Anitha, T., Balamurugan, V. T., Velusamy, S., Hughes, D., & Sundaram, S. (2025)
Nanocellulose Extraction from Biomass Waste: Unlocking Sustainable Pathways for Biomedical Applications. The Chemical Record, 25(5), Article e202400249. https://doi.org/10.1002/tcr.202400249
The escalating global waste crisis necessitates innovative solutions. This study investigates the sustainable production of nanocellulose from biomass waste and its biomedical...

Antenna Design and Optimization for 5G, 6G, and IoT

Journal Article
Jahanbakhsh Basherlou, H., Ojaroudi Parchin, N., & See, C. H. (2025)
Antenna Design and Optimization for 5G, 6G, and IoT. Sensors, 25(5), Article 1494. https://doi.org/10.3390/s25051494

A PIFA Array with Enhanced Bandwidth and Isolation for 5G Smartphone Applications

Presentation / Conference Contribution
Basherlou, H. J., Odiamenhi, M., Ojaroudi Parchin, N., Manjakkal, L., & See, C. H. (2025, March)
A PIFA Array with Enhanced Bandwidth and Isolation for 5G Smartphone Applications. Presented at URSI UK Symposium 2025, Durham University
This research presents a new antenna array system with enhanced impedance bandwidth and reduced mutual coupling designed for sub-6 GHz smartphone applications. The antenna res...

Compact Dual-Band Circularly Polarized Rectenna for SWIPT in Low-Power IoT and WSNs

Presentation / Conference Contribution
Odiamenhi, M., Basherlou, H. J., See, C. H., O. Parchin, N., Yu, H., & Goh, K. (2025, March)
Compact Dual-Band Circularly Polarized Rectenna for SWIPT in Low-Power IoT and WSNs. Presented at URSI UK Symposium 2025, Durham University, UK
Energy-constrained Internet of Things (IoT) and wireless sensor networks (WSNs) require sustainable power solutions to minimise battery maintenance and ensure continuous opera...

3rd Order Coupled-Resonator Bandpass Filter Assisted by Groove Gap-Waveguide Technology for 26-GHz Radio Link Diplexter

Presentation / Conference Contribution
Alibakhshikenari, M., Parand, P., Zidour, A., Virdee, B. S., Longhi, P., See, C. H., & Limiti, E. (2024, December)
3rd Order Coupled-Resonator Bandpass Filter Assisted by Groove Gap-Waveguide Technology for 26-GHz Radio Link Diplexter. Presented at 2024 IEEE Asia-Pacific Conference on Applied Electromagnetics (APACE), Langkawi, Malaysia
This paper investigates the design of a bandpassfilter (BPF) intended for 26-GHz radio-link diplexer using Groove-Gap-Waveguide (GGW) technology. Its unit-cells consist of a r...

A Dual-Polarized and Broadband Multiple-Antenna System for 5G Cellular Communications

Journal Article
Jahanbakhsh Basherlou, H., Ojaroudi Parchin, N., & See, C. H. (2025)
A Dual-Polarized and Broadband Multiple-Antenna System for 5G Cellular Communications. Sensors, 25(4), Article 1032. https://doi.org/10.3390/s25041032
This study presents a new multiple-input multiple-output (MIMO) antenna array system designed for sub-6 GHz fifth generation (5G) cellular applications. The design features ei...

Dementia Friendly Buildings—Approach on Architectures

Journal Article
Ghamari, M., Suvish, Dehkordi, A. A., See, C. H., Sami, A., Yu, H., & Sundaram, S. (2025)
Dementia Friendly Buildings—Approach on Architectures. Buildings, 15(3), Article 385. https://doi.org/10.3390/buildings15030385
Dementia’s escalating incidence, coupled with its economic burden, highlights the need for architectural designs and forms that benefit people living with dementia. This resea...

Synthesis of Zn linked 2D metal-organic framework in HHTP for zinc ion-based energy storage devices

Presentation / Conference Contribution
Paul, F., Markapudi, P., H See, C., Goh, K., & Manjakkal, L. (2024, November)
Synthesis of Zn linked 2D metal-organic framework in HHTP for zinc ion-based energy storage devices. Poster presented at Materials chemistry poster symposium, London, UK

Innovative UWB Phase Shifters Using Groove Gap-Waveguide Technology Inspired by Metasurfaces for Beamforming Networks Operating at 100 GHz

Presentation / Conference Contribution
Alibakhshikenari, M., Zidour, A., Virdee, B. S., Kouhalvandi, L., Shahid, S., See, C. H., & Limiti, E. (2024, November)
Innovative UWB Phase Shifters Using Groove Gap-Waveguide Technology Inspired by Metasurfaces for Beamforming Networks Operating at 100 GHz. Presented at 2024 Asia-Pacific Microwave Conference (APMC), Bali, Indonesia
This paper presents the design of four phase shifters (+45°, +90°, +135°, +180°) for matrix-based beamforming networks (MB-BFN) in mm-wave antenna arrays. Utilizing groove gap...

Wideband Hybrid Dielectric Resonator Antenna Array for 5G mmWave Mobile Applications

Presentation / Conference Contribution
Zidour, A., Alibakhshikenari, M., Ayad, M., See, C. H., & Limiti, E. (2024, June)
Wideband Hybrid Dielectric Resonator Antenna Array for 5G mmWave Mobile Applications. Presented at 6th Global Power, Energy and Communication Conference (GPECOM), Budapest, Hungary
In this paper, a wideband hybrid dielectric resonator antenna (HDRA) array design is presented for fifth-generation (5G) millimeter wave (mmWave) applications. The hybrid ante...
Projects

Pre-Napier Funded Projects

  • KTP: Wireless sensors for detecting obstructive sleep apnoea, £170,000, 2018-2020, Co-I, Passion For Life Healthcare (UK) Limited, University of Bolton
  • Feasibility Study of using Zigbee based Wireless sensor network for Agriculture Application, £5000, 2017, PI, University of Bolton and Modibbo Adama University of Technology Yola, Nigeria
  • KTP: Development of smart fire protection products capable of sensing and reporting their local environment wirelessly, £93,988, 2016-2017, Co-I, TBA Textiles Limited, University of Bolton
  • Industrial Research Project: UHF balanced antenna design for a wireless transceiver, £20,000, 2014-2015, PI, WIMAC Ltd
  • TSB Innovative Voucher: Feasibility Study for Sediment Sensors in Storm Water Sediment Interceptor Systems, £5000, 2014, Co-I, Hydro international Ltd,
  • Industrial Contract: "EPA US Demonstration Project- Portable Acoustic Sensor", £30,000, 2013, Co-I, University of Bradford
  • Industry funded Research Project: UHF and mobile antennas designs for a wireless lighting system, £30,000, 2012-2014, PI, WIMAC Ltd
  • Industrial contract: “Sewerbatt System Demonstration Project”, £30,000, 2012, Co-I, University of Bradford
  • Industry funded research contract: Antenna Designs for Subsurface Underground Communication Systems, £30,000, 2010-2011, PI, IETG Ltd.
  • Innovative voucher Yorkshire Forward: Feasibility Study of Charging Methods for the B&W Scooter, £5,000, 2010, Co-I, University of Bradford
  • Travel Grant: International Young Scientist Award: Japan Toyama, 2010 Asia-Pacific Radio Science Conference, £3,000, Oct. 2010, PI, University of Bradford
  • URSI Young Scientist Award:Travel grant, USA Chicago URSI General Assembly, £3,000, Aug.2008, PI, URSI (Union of Radio Science)
  • Industrial Contract: Underground embedded antenna for sewer monitoring system, £5000, 2006, Co-I, University of Bradford
  • Industrial Contract: Feasible study of using wireless sensor technology for sewerage system monitoring, £27,200, 2005-2006, Co-I, University of Bradford
Post Grad

Current Post Grad projects

Previous Post Grad projects

Non-Napier PhD or MSc by Research supervisions

  • Sensor design and implementation for underground applications. PhD
  • MIMO antenna design using Metamaterial, PhD
  • Dielectric antenna design for wireless communication applications, PhD
  • Harmonic rejection antenna design using GA, PhD
  • investigation, design and implementation of frequency tuneable antennas for mobile handset and UWB applications, PhD
  • Design of small compact wideband and ultra-wideband antennas for wireless communications applications, PhD
  • Analysis and solutions for RFID tag and RFID reader deployment in wireless communications applications, PhD
  • UWB Antenna design for breast cancer detection, PhD
  • Modelling the non-uniform current distribution on wire antennas, PhD
  • Antenna array design using genetic algorithms for mobile base stations, PhD
  • Design, model and implementations of EBG and defected ground planes, PhD
  • Design and modelling of dielectric resonator Antennas for mobile handsets, MPhil
  • Design and modelling of Sub-surface Radar for detection of breast cancer, MPhil
  • Quadrifilar antennas for satellite mobile personal handset, PhD