عبدالمجید صاحب سالک
پنجاب میں مولانا ظفر علی خاں مرحوم کے بعد ادب و صحافت کے میدان میں سب سے ممتاز اور رنگارنگ شخصیت عبدالمجید صاحب سالک مرحوم کی تھی، وہ ادیب و شاعر بھی تھے اور صحافی و مزاح نگار بھی، ان کا مذاق بڑا ستھرا اور قلم متوازن تھا، ایک زمانہ میں ان کی ذات لاہور کی ادبی سرگرمیوں کا مرکز تھی، پنجاب کے بہت سے نوجوان ادیب و صحافی ان ہی کے دامن تربیت کے پروردہ ہیں، طبعاً بڑے باغ و بہار، سخن طراز اور بزم آرا تھے، انھوں نے علم و ادب کے ساتھ ملک و ملت کی بھی خدمت انجام دی، متعدد علمی و ادبی تصانیف ان کی یادگار ہیں، ان میں ’’مسلم ثقافت ہندوستان میں‘‘ ان کے حسن مذاق کا نمونہ ہے، ابھی تھوڑے دن ہوئے ’’ہم نہیں ہوں گے‘‘ کی ردیف و قافیہ میں ان کی ایک بڑی دلکش نظم نظر سے گذری تھی، کیا معلوم تھا کہ یہ شاعری اتنی جلد واقعہ کی شکل اختیار کرلے گی، علم و ادب کی محفلوں میں مدتوں ان کی یاد آتی رہے گی، اﷲ تعالیٰ علم و ادب کے اس خادم کو اپنی رحمت و مغفرت سے سرفراز فرمائے۔
(شاہ معین الدین ندوی،نومبر ۱۹۵۹ء)
Al-Imam Nooh Ibne Abi Maryam Aljam'a is one of the well known worldly personality among the International Scholars of Science of Hadith. Unluckily, his positive personality (Ta'deel) in the Science of chain of Narrators (Ilm-e-Asmaur Rijal wa See'r) had been hidden from the sights of worldly known scholars since centuries. This research contribution is based on manuscript of Al-Istighna fee Asma el Mashooreen Bilkuna by Hafiz Ibne Abdul Bar Al-Qurtubi Al-Maliki (death: 460 hijri) found from Mufti Ilahi Bakhsh Library Kandhala India، despite of the Jarah of other scholars. The manuscript is written by Al-Hafiz Abi Abdullah Muhammad bin Abil Fatah Al-Ba'li Alhanbali (Teacher and Mentor of Al-Hafiz Al-Zahabi) (death: 709 hijri). This contribution tries to explore the personality of the great scholar as well as shower a spot light on the critic of scholars and highlight the reality of this Imam.
Medical imaging captures visual representation of human body’s structural and functional aspects like tissues, bones, blood flow etc. for clinical analysis and medical intervention. Optical Imaging, X-ray, Computer tomography, Magnetic Resonance Imaging (MRI), Ultrasound etc. are common medical imaging techniques used by physicians. Among them ultrasound is the most widely used imaging technique due to its cost effectiveness and human health friendly characteristic. But ultrasound images are inherently corrupted with speckle noise and thus makes physician’s interpretation complex and time-consuming. Therefore, in medical image analysis image denoising has more clinical value since it helps the physicians to reach correct, reliable and speedy diagnosis by mitigating noise from the image. Image denoising also facilitate image segmentation, image fusion, object detection and target recognition. Computer-aided image denoising and image enhancement techniques helps to improve efficiency and accuracy of physician’s interpretation. This research work focused on the development of reliable image denoising and enhancement techniques for echocardiographic images. It aimed to denoise an echocardiographic image without introducing noise distortion and loss of information. Fractional calculus has been used to efficiently mitigate noise of various levels from the echocardiographic image. Also rough set theory and fuzzy logic have been used to draw boundaries between image regions. These concepts helped to handle uncertainty caused by the speckle noise. Three image denoising methods have been proposed in thesis. First proposed denoising methodology performs image denoising in two stages. Stage-1 applies weighted fuzzy mean filter and stage-2 convolves every pixel of the image with a fractional integration filter. Second proposed approach intelligently selects appropriate filter for every image region. Fractional order differintegral filter is proposed in third image denoising methodology. All three proposed denoising schemes not only preserve details in the denoised image but also efficiently reduce noise. Image Enhancement further improves the visual quality of an image. This research also proposes two echocardiographic image enhancement schemes to effectively utilize gradient magnitude and eigenvalue hessian matrix calculations and fractional order derivative concept. Real echocardiographic b-mode images and standard images artificially corrupted with speckle noise have been considered in simulations for this research. Visual and quantitative analysis of simulation results presents significant improvement by the proposed schemes as compared to state-of-the art image denoising and image enhancement techniques.