مصادرومراجع
بنیادی مآخذ
۱۔شہزا د احمد ، ڈاکٹر:(مرتبہ) ’’ انوارِ عقیدت‘‘ ( انٹر نیشنل حمد و نعت فائونڈیشن، کراچی) ۲۰۰۰ء
۲۔شہزا د احمد ، ڈاکٹر:’’آئنہ ریاض سہروردی‘‘(مرکزی انجمن عندلیبانِ ریاضِ رسول، کراچی) ۲۰۱۳ء
۳۔شہزاد احمد ، ڈاکٹر:’’ایک سو ایک پاکستانی نعت گو شعرا‘‘(رنگ ادب پبلی کیشنز، کراچی)۲۰۱۷ء
۴۔شہزاد احمد، ڈاکٹر/’’اردو نعت پاکستان میں ‘‘( حمد و نعت ریسرچ فائونڈیشن ، کراچی) ۲۰۱۴ء
۵۔شہزاداحمد ، ڈاکٹر:’’ اساسِ نعت گوئی‘‘( رنگ ادب پبلی کیشنز، کراچی) ۲۰۱۶ء
۶۔شہزاداحمد ، ڈاکٹر:’’اُردو میں نعتیہ صحافت‘‘(رنگ ادب پبلی کیشنز ، کراچی ) ۲۰۱۶ء
۷۔شہزاداحمد، ڈاکٹر:’’عزیزالدین خاکی کی تصنیفی اور تالیفی خدمات کا اجمالی جائزہ‘‘( انجمن ترقی نعت ، کراچی)۲۰۰۲ء
۸۔شہزاداحمد، ڈاکٹر:’’لاکھوں سلام ‘‘( انجمن ترقی نعت ، کراچی )۱۹۸۶ء
ثانوی مآخذ
۹۔اصغرعلی ، سید /شہزاد احمد ، ڈاکٹر :’’ خوشبوئے ادیب ‘‘(مرتبہ)( مدحت پبلشرز ، کراچی) ۲۰۱۷ء
۱۰۔انوار ظہوری، سید: ’’حرف منزہ ‘‘(ظہوری اکیڈمی، لاہور) ۱۹۹۳ء
۱۱۔آزاد، محمد حسین :’’آب حیات‘‘(نول کشور پرنٹنگ پریس، لاہور) ۱۹۰۷ء
۱۲۔آزاد، محمد اسماعیل ،فتح پوری،:’’ہندوپاک کی اُردو نعتیہ شاعری‘‘)برائون پبلی کیشنز،نئی دہلی( ۲۰۱۹ء
۱۳۔حسرت موہانی :’’نکات سخن‘‘( الفیصل ناشران کتب) لاہور، ۲۰۱۴ء
۱۴۔حفیظ جالندھر ی ا بولاثر: ’’شاہ نامہ اسلام ‘‘( مکتبہ تعمیر انسانیت ، لاہور)۱۹۸۵ء
۱۵۔حفیظ صدیقی، ابوالاعجاز: ’’کشاف تنقیدی اصطلاحات ‘‘(مقتدرہ قومی زبان، اسلام آباد) ۱۹۸۵ء
۱۶۔راجا رشید محمود: ’’اقامت نعت‘‘(مدنی گرافکس ،لاہور) ۲۰۱۲ء
۱۷۔رفیع الدین اشفاق، ڈاکٹر: ’’اردو میں نعتیہ شاعری‘‘(ارد و اکیڈمی سندھ، کراچی ) ۱۹۷۶ء
۱۸۔ریاض سہروردی:’’ارمغان ریاض سہروردی‘‘ مرتبہ :ڈاکٹر شہزاداحمد،۲۰۱۴
۱۹۔ریاض سہروردی:’’کلیات ریاض سہروردی‘‘ مرتبہ ،ڈاکٹر شہزاداحمد،دسمبر ۲۰۱۳
۲۰۔سودا، مرزا محمد رفیع:’’کلیاتِ سودا، جلد دوم‘‘ مرتبہ ، ڈاکٹر محمد شمس الدین صدیقی( مجلس ترقی ادب، لاہور) ۲۰۰۶ء
۲۱۔شہیدی، کرامت علی:’’ دیوانِ شہیدی‘‘ مرتبہ ، سید عامر علی( ، بیکن بکس ، ملتان) ۲۰۰۲ء
۲۲۔صبیح رحمانی،سید:’’ کلیات صبیح رحمانی‘‘ مرتبہ ،ڈاکٹر شہزاداحمد( دارالسلام ، لاہور) ۲۰۱۹ء
۲۳۔طیب ابدالی،ڈاکٹر:’’انتخاب کلام آسی غازی پوری‘‘(اُترپردیش اُردو اکادمی،لکھنو) ۱۹۸۳ء
۲۴۔علم بن حجاج...
Background: In neck related problems, limited cervical ranges are considered a major contributor leading to forward head posture and increased disability.
Methodology: The study design was a randomized clinical trial. Total of 50 subjects were recruited that fulfilled the selection criteria. Subjects were divided into two groups. Craniocervical flexion exercises group A (n=25) and Scapular stabilization exercises group B (n=25). Numeric Pain Rating Scale (NPRS) and Neck Disability Index (ND1) were subjective while the goniometer and plumb line were used as objective modes of assessment. Baseline and after 4 weeks of treatment values were assessed by using SPSS 21.
Results: Both groups showed improvement in plumb line values, forward head posture and cervical spine mobility. NPRS, and NDI score values after the 4-week exercise program showed significant results (p-value<0.05). Outcomes except for plumb line value and NDI score indicated statistically significant improvement in the Craniocervical flexion exercise group than the scapular stabilization exercise group (p-value<0.05). However, in NPRS no statistical difference (p-value>0.05) was found between the two groups.
Conclusion: Only females were recruited. Further studies can correlate with spatiotemporal features. The idea and conceptual framework were original.
The tremendous growth of mobile wireless devices in various form factors requires efficient, compact, and multi-function antennas, capable of providing high data rates at multiple application bands. Modern wireless devices incorporate a number of different antennas to provide services for cellular voice, video, data, Wi-Fi, and GPS connectivity, across multiple bands. High data rate requirements also demand the design of multiple input multiple output antennas in order to implement spatial multiplexing and diversity schemes. Reconfigurable antennas possess the ability to change their characteristics (frequency, pattern, polarization) as per application demand. Dynamic alteration of the radiation characteristics makes them a suitable candidate for multi-function, small size wireless devices, where the requirement of multiple antennas can be circumvented by a single reconfigurable antenna. Dielectric resonator antennas (DRAs) offer a number of benefits over the conventional conductor-based antennas. The advantages include high radiation efficiency, small size, and a versatility of feed mechanisms. Despite many benefits, however, the size of the DRA must be excessively miniaturized to make their integration feasible in wireless devices of small size and various form factors. The aim of this work is to devise some novel reconfiguration and simultaneous miniaturization techniques for DRA based antennas. Hybrid structures comprising of DR and other resonant structures (like microstrip patch, slots) have been explored previously for enhancement of impedance bandwidth, multi-band, and wideband applications. Hybrid antenna structures combine the desirable features of both resonators and are much beneficial to meet the diverse application demands. This work proposes a hybrid combination of DR element, with ground plane (GP) slots to design compact, efficient, and multi-function reconfigurable antennas. The reconfiguration properties of the proposed antenna structures satisfy multiple application band requirements, while the miniaturization aspects assist to save valuable space in small devices. The GP slots can either be employed as a resonant structure or act as a defected ground structure (DGS) for the resonant DR element. The proposed technique has been applied for the design of frequency reconfigurable (FR), single-input-single-output (SISO), multiple-input-multiple-output (MIMO), and frequency plus pattern reconfigurable antenna designs. A few novel designs are presented in the current dissertation that effectively combine the GP slots and the DR resonances to obtain efficient, multi-band, antenna structures for SISO as well as MIMO applications. The combination of probe-fed and microstrip line fed DR elements with GP slots has thoroughly been analyzed and designed with an emphasis to get higher tuning ranges and better isolation. In almost all designs, the reconfiguration aspect has been incorporated by placing switches on the GP slots, which in turn alter the slot length and result in achieving either frequency or pattern reconfiguration.