Innovations

Multiple research breakthroughs in photonics have led to a growing portfolio of patents, industrial designs (ID), and copyrights, reflecting the group’s strong commitment to original innovation and intellectual property generation. These protected works span a broad spectrum of photonic methods and techniques—including laser-based interferometry, optical sensing mechanisms, and integrated fiber-optic systems—demonstrating novelty in concept and technical execution. The resulting technologies form the basis for practical products such as high-sensitivity sensors, diagnostic platforms, and optical components. Collectively, these intellectual assets showcase the group’s capability to translate advanced photonics research into tangible outcomes with real-world value and commercialization potential.

INTELLECTUAL PROPERTIES

Patent Granted

MY-163603-A, Laser Guided Qibla Measurement Device
MY-189617-A, An Instrument for Decoupling of Axial and Transverse Force Components Crosstalk and A Method of Manufacturing the Same
MY-201532-A, Assembly for Real-Time Diet Monitoring And Method Thereof
MY-192254-A, A System and A Method to Determine and Control Emotional State of A Vehicle Operator

Patent Filed

PI2021007583, Composite Film For Selective Optical Detection Of Macronutrient Content In Waterbed Device And Method Thereof
PI 2022005397, Device For Discriminatively Measuring Temperature Axial And Transverse Force Components And Method Thereof
PI 2023007936, A Chloride Ions Detection Sensor In Palm Oil
PI 2020005534, Assembly For Real-Time Diet Monitoring And Method Thereof
PI2024006485, A System And Method For Earthquake Detection And Early Warning
PI 2021007547, A System For Improving The Performance Of Brillouin Optical Time Domain Reflectometry BOTDR Fiber Sensor And A Method Thereof
PI2024007731, A System And An Apparatus For Performing Optical Imaging

Copyright

LY2021W01873 E-LAW: Kebolehgunaan Aplikasi Peranti mudah Alih Pembelajaran Akta Jenayah di Kalangan Pelajar Sekolah
LY2021E03229 HyTalent: Modul Tia dan BPLC
LY2024W00530 Modul Percetakan 3D: Panduan Asas
LY2023W05351 Modul Pengenalan kepada Mikropengawal dan Arduino Menggunakan mBlock.
LY2023W06263 Research Dashboard FKAB
LY2024W04456 KPU Instrument Mark Generator
LY2024W05748 KPU Masterlist Generator
LY2021W02943 HyTalent: Module IoT
LY2021E05977 Screening for diabetes among periodontitis patients (CODAPT-My©): Care pathway for bridging primary care with dental care services in Malaysia.
LY2022W02739 DietScore TM 2.0: Intelligent Menu Planning for Malaysian Athletes and Active Individuals from Various Age Categories.
Y2021E04218 FIBER: SANA-SINI SERAT! MODUL UNTUK PROGRAM DIETITIAN JR@UKM
MY-201532-A CALO-LITE™: Pembangunan Kaunter Pintar Untuk Penilaian Pemakanan Atlet
LY2022W00322 Virtual Atlas of Portion Size (VAPS)

PROTOTYPES

Portable SPR

The SPR prototype is a compact, portable sensor developed to miniaturize surface plasmon resonance technology for real-world applications. Traditional SPR systems, while powerful, are often bulky, expensive, and limited to laboratory use. This prototype addresses those limitations by offering a low-cost, handheld alternative that retains the core advantages of SPR—such as high sensitivity, label-free detection, and real-time analysis. Its lightweight and user-friendly design allows it to be deployed directly in the field, making it especially suitable for on-site data collection and rapid diagnostics.

The initial development of this prototype is focused on environmental sensing, particularly for monitoring water quality and detecting contaminants. However, the adaptable design holds strong potential for broader applications, including point-of-care medical diagnostics and food safety monitoring. By enabling immediate, in-situ analysis, this mini-SPR system empowers professionals to make timely, informed decisions without centralized laboratory infrastructure. It represents a significant step toward democratizing access to advanced optical sensing technologies.

DFOS

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Smart Tray

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Optical Imaging

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COMMERCIAL PRODUCTS

InnoQibla

The INNOQIBLA system is designed to determine and mark the Qibla direction in indoor environments accurately. It uses acceleration sensors and gyroscopes to detect orientation relative to true north, eliminating the need for sunlight or traditional compass references. The sensor data is processed through a combination of low-pass and high-pass filters before being interpreted by a microcontroller. The system then activates a laser pointer that precisely aligns with the Qibla direction, allowing automated and accurate rotational positioning with minimal user input.

This solution offers key advantages such as high precision, ease of use, and independence from external light sources, making it ideal for both personal and institutional use. Notable features include real-time directional correction, laser-based visual guidance, and compact integration, which are suitable for portable and fixed installations. INNOQIBLA provides a practical, reliable, and user-friendly alternative for Qibla determination in mosques, hotels, offices, and individual prayer spaces.

Learn more about INNOQIBLA here

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