Adeel Abbas
Quaid-i-Azam University
8 Papers
Adeel Abbas is an academic researcher from Quaid-i-Azam University. The author has contributed to research in topics: Durability & Attack patterns. The author has an hindex of 1, co-authored 1 publications.
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Papers
A New Ensemble-Based Intrusion Detection System for Internet of Things
Adeel Abbas,Muazzam A. Khan,Muazzam A. Khan,Shahid Latif,Maria Ajaz,Awais Aziz Shah,Jawad Ahmad +6 more
TL;DR: An ensemble-based intrusion detection model that combines logistic regression, naive Bayes, and decision tree have been deployed with voting classifier after analyzing model’s performance with some prominent existing state-of-the-art techniques and results illustrate significant improvement in terms of accuracy as compared to existing models.
Scaling thermal and mechanical characteristics of woven honeycombs: A novel endeavor of simultaneous ridges and picking sequence variation
Danish Mahmood Baitab,Shagufta Riaz,Adeel Abbas,Shahood uz Zaman,Muhammad Zubair,Yasir Nawab,Muhammad Umair +6 more
TL;DR: This study investigates the thermal and mechanical properties of woven honeycombs with varying ridges and picking sequences, revealing significant enhancements in wet fluid management, tensile strength, and puncture resistance with increased interlacement and areal densities.
3
Thermal microclimate investigation of smart knitted shoe soles for pressure sensing applications: a promising methodology for tailorable attributes
Adeel Abbas,M. S. Anas,Waqas Ashraf,Habib Awais,Tabrej Khan,Omar Shabbir,Mansour Aloufi +6 more
TL;DR: This study investigates the thermal microclimate of smart knitted shoe soles for pressure sensing applications, analyzing various materials and structures, and finds that honeycomb construction and tuck/miss stitches exhibit superior thermal comfort and pressure sensing performance.
1
In situ energy absorption and negative Poisson’s ratio behaviors of 3D weft knitted auxetic fabrics under variant measurements
TL;DR: This study investigates 3D weft-knitted auxetic fabrics with negative Poisson's ratio behavior, created using flatbed purl knitting technology, and explores their energy absorption and auxeticity under varying grid sizes and measurement points.