IIUM Repository

Dr. Mohd Zulfaezal Che Azemin

KULLIYYAH OF ALLIED HEALTH SCIENCES

Profile Picture

Latest Additions

  1. Che Azemin, Mohd Zulfaezal and Ithnin, Mohd. Hafidz and Mohd Salleh, Mohd Hazimin and Ahmad, Norsham and Mohd Tamrin, Mohd Izzuddin (2021) IIUM Blue Light Hazard. [Copyright] (Unpublished)
  2. Che Azemin, Mohd Zulfaezal and Md Noor Rudin, Noor Fawazi and Mohd Salleh, Mohd Hazimin and Hilmi, Mohd Radzi and Mohd Tamrin, Mohd Izzuddin (2021) Finite element analysis model #6 using foldable acrylic constants. Technical Report. UNSPECIFIED. (Unpublished)
  3. Che Azemin, Mohd Zulfaezal and Md Noor Rudin, Noor Fawazi and Mohd Salleh, Mohd Hazimin and Hilmi, Mohd Radzi and Mohd Tamrin, Mohd Izzuddin (2021) Finite element analysis model #5 using foldable acrylic constants. Technical Report. UNSPECIFIED. (Unpublished)
  4. Che Azemin, Mohd Zulfaezal and Md Noor Rudin, Noor Fawazi and Mohd Salleh, Mohd Hazimin and Hilmi, Mohd Radzi and Mohd Tamrin, Mohd Izzuddin (2021) Finite element analysis model #4 using foldable acrylic constants. Technical Report. UNSPECIFIED. (Unpublished)
  5. Che Azemin, Mohd Zulfaezal and Md Noor Rudin, Noor Fawazi and Mohd Salleh, Mohd Hazimin and Hilmi, Mohd Radzi and Mohd Tamrin, Mohd Izzuddin (2021) Finite element analysis model #3 using foldable acrylic constants. Technical Report. UNSPECIFIED. (Unpublished)
  6. Che Azemin, Mohd Zulfaezal and Md Noor Rudin, Noor Fawazi and Mohd Salleh, Mohd Hazimin and Hilmi, Mohd Radzi and Mohd Tamrin, Mohd Izzuddin (2021) Finite element analysis model #2 using foldable acrylic constants. Technical Report. UNSPECIFIED. (Unpublished)
  7. Che Azemin, Mohd Zulfaezal and Md Noor Rudin, Noor Fawazi and Mohd Salleh, Mohd Hazimin and Hilmi, Mohd Radzi and Mohd Tamrin, Mohd Izzuddin (2021) Finite element analysis model #1 using foldable acrylic constants. Technical Report. UNSPECIFIED. (Unpublished)
  8. Che Azemin, Mohd Zulfaezal and Md Noor Rudin, Noor Fawazi and Mohd Salleh, Mohd Hazimin and Hilmi, Mohd Radzi and Mohd Tamrin, Mohd Izzuddin (2021) Finite element analysis model #4. Technical Report. UNSPECIFIED. (Unpublished)
  9. Che Azemin, Mohd Zulfaezal and Md Noor Rudin, Noor Fawazi and Mohd Salleh, Mohd Hazimin and Hilmi, Mohd Radzi and Mohd Tamrin, Mohd Izzuddin (2021) Finite element analysis model #2. Technical Report. UNSPECIFIED. (Unpublished)
  10. Che Azemin, Mohd Zulfaezal and Md Noor Rudin, Noor Fawazi and Mohd Salleh, Mohd Hazimin and Hilmi, Mohd Radzi and Mohd Tamrin, Mohd Izzuddin (2021) Finite element analysis model #1. Technical Report. UNSPECIFIED. (Unpublished)
  11. Che Azemin, Mohd Zulfaezal and Md Noor Rudin, Noor Fawazi and Mohd Salleh, Mohd Hazimin and Hilmi, Mohd Radzi and Mohd Tamrin, Mohd Izzuddin (2021) Technical report TR01 - IOL material identification. Technical Report. UNSPECIFIED. (Unpublished)
  12. Che Azemin, Mohd Zulfaezal and Hilmi, Mohd Radzi and Mohd. Kamal, Khairidzan and Mohd Tamrin, Mohd Izzuddin (2020) Post-pterygium surgery prediction of contrast sensitivity function using fleshiness grade, thickness, length and weight of pterygium. [Copyright] (Unpublished)
  13. Che Azemin, Mohd Zulfaezal and Hilmi, Mohd Radzi and Mohd. Kamal, Khairidzan and Mohd Tamrin, Mohd Izzuddin (2020) Post-pterygium surgery prediction of contrast sensitivity function using fleshiness grade, redness and length of pterygium. [Copyright] (Unpublished)
  14. Che Azemin, Mohd Zulfaezal and Hilmi, Mohd Radzi and Mohd. Kamal, Khairidzan and Mohd Tamrin, Mohd Izzuddin (2020) Post-pterygium surgery prediction of contrast sensitivity function using fleshiness grade, redness, length and weight of pterygium. [Copyright] (Unpublished)
  15. Che Azemin, Mohd Zulfaezal and Hilmi, Mohd Radzi and Mohd. Kamal, Khairidzan and Mohd Tamrin, Mohd Izzuddin (2020) Post-pterygium surgery prediction of contrast sensitivity function using fleshiness grade, redness, and thickness of pterygium. [Copyright] (Unpublished)
  16. Che Azemin, Mohd Zulfaezal and Hilmi, Mohd Radzi and Mohd. Kamal, Khairidzan and Mohd Tamrin, Mohd Izzuddin (2020) Post-pterygium surgery prediction of contrast sensitivity function using fleshiness grade, redness, thickness and length of pterygium. [Copyright] (Unpublished)
  17. Che Azemin, Mohd Zulfaezal and Hilmi, Mohd Radzi and Mohd. Kamal, Khairidzan and Mohd Tamrin, Mohd Izzuddin (2020) Post-pterygium surgery prediction of contrast sensitivity function using fleshiness grade, redness, thickness and weight of pterygium. [Copyright] (Unpublished)
  18. Che Azemin, Mohd Zulfaezal and Hilmi, Mohd Radzi and Mohd. Kamal, Khairidzan and Mohd Tamrin, Mohd Izzuddin (2020) Post-pterygium surgery prediction of contrast sensitivity function using fleshiness grade, thickness and length of pterygium. [Copyright] (Unpublished)
  19. Che Azemin, Mohd Zulfaezal and Hilmi, Mohd Radzi and Mohd. Kamal, Khairidzan and Mohd Tamrin, Mohd Izzuddin (2020) Post-pterygium surgery prediction of contrast sensitivity function using fleshiness grade, redness and weight of pterygium. [Copyright] (Unpublished)
  20. Che Azemin, Mohd Zulfaezal and Hilmi, Mohd Radzi and Mohd. Kamal, Khairidzan and Mohd Tamrin, Mohd Izzuddin (2020) Post-pterygium surgery prediction of contrast sensitivity function using fleshiness grade, length and weight of pterygium. [Copyright] (Unpublished)

Most Viewed Items

Item titleViews
1Age-related rarefaction in retinal vasculature is not linear1609
2Using color histogram as the trait of retina biometric1563
3Age-related rarefaction in the fractal dimension of retinal vessel1510
4Does retinal vascular geometry vary with cardiac cycle?1398
5Loss of calibre information during vessel segmentation1380
6Robust methodology for fractal analysis of the retinal vasculature1343
7Fractal dimension of the retinal vasculature and risk of stroke : a nested case-control study1287
8Automated inferior tear meniscus height measurement in a sequence of video1234
9Zone specific fractal dimension of retinal images as predictor of stroke incidence1207
10Estimating retinal vessel diameter change from the vessel cross-section1187
11Supervised pterygium fibrovascular redness grading using generalized regression neural network1173
12Grey matter volume differences of textual memorization: a voxel based morphometry study1125
13Fusion of multiscale wavelet-based fractal analysis on retina image for stroke prediction1105
14Influence of refractive condition on retinal vasculature complexity in younger subjects1086
15Minimal training time in supervised retinal vessel segmentation1036
16Mathematical verification of summary formula in retinal vessel diameter measurement1023
17Benchmarked pterygium images for human and machine graders1016
18Comparison of dry eye parameters between diabetics and non-diabetics in district of Kuantan, Pahang996
19Box-counting fractal dimension algorithm variations on retina images917
20An overview of retinal blood vessels segmentation819
21Evaluation of thresholding techniques on 3D fractal dimension MRI images726
22Prevalence and risk factors of dry eye disease in Kuantan, Malaysia569
23Changes in contrast sensitivity in young adults with diabetes535
24The effect of daily religious fasting on tear film characteristics and ocular surface533
25The intra- and inter-grader reliability of Meibomian gland loss measurement474
26Retinal image quality assessment: Portable eye examination kit retina (Peek Retina)™ versus 3d-printed ophthalmoscope (3dpo)468
27Textural analysis in Meibomian gland image456
28Reliability of manual vascular segmentation for retinal fractal dimension using peek retinatm389
29The evaluation of pinhole glasses as visual therapy in improving refractive error350
30Brain structure characterization of huffaz (memorizers of the Quran): evidence from magnetic resonance imaging347