Waqar Asif scite author profile

The new ‘normal’ defined during the COVID-19 pandemic has forced us to re-assess how people with special needs thrive in these unprecedented conditions, such as those with Autism Spectrum Disorder (ASD). These changing/challenging conditions have instigated us to revisit the usage of telehealth services to improve the quality of life for people with ASD. This study aims to identify mobile applications that suit the needs of such individuals. This work focuses on identifying features of a number of highly-rated mobile applications (apps) that are designed to assist people with ASD, specifically those features that use Artificial Intelligence (AI) technologies. In this study, 250 mobile apps have been retrieved using keywords such as autism, autism AI, and autistic. Among 250 apps, 46 were identified after filtering out irrelevant apps based on defined elimination criteria such as ASD common users, medical staff, and non-medically trained people interacting with people with ASD. In order to review common functionalities and features, 25 apps were downloaded and analysed based on eye tracking, facial expression analysis, use of 3D cartoons, haptic feedback, engaging interface, text-to-speech, use of Applied Behaviour Analysis therapy, Augmentative and Alternative Communication techniques, among others were also deconstructed. As a result, software developers and healthcare professionals can consider the identified features in designing future support tools for autistic people. This study hypothesises that by studying these current features, further recommendations of how existing applications for ASD people could be enhanced using AI for (1) progress tracking, (2) personalised content delivery, (3) automated reasoning, (4) image recognition, and (5) Natural Language Processing (NLP). This paper follows the PRISMA methodology, which involves a set of recommendations for reporting systematic reviews and meta-analyses.

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A Lightweight Blockchain Based Two Factor Authentication Mechanism for LoRaWAN Join Procedure

Danish

Lestas

Asif

et al. 2019

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tem in realistic LoRaWAN network scenarios. The considered performance metrics are the achieved latency and throughput at the join server, which are measured as the number of concurrent clients and join request messages increase. The simulations results indicate that the system achieves efficient system performance up to an upper bound on the load level which involves 30 join requests from 1000 concurrent clients. However, the security and trust advantages that the blockchain technology offers, comes at the cost of performance deterioration for loads exceeding that level. This can be resolved by introducing additional join servers. A lightweight, cost effective blockchain based two factor authentication framework can also be employed in LoRaWAN networks when these are characterized by small number of networks servers and LoRa end devices. We demonstrate through simulations that this approach incurs additional delays and can be preferred for systems with no strict requirements of throughput and latency.

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Dynamic Group Formation With Intelligent Tutor Collaborative Learning: A Novel Approach for Next Generation Collaboration

et al. 2021

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Securing the LoRaWAN join procedure using blockchains

et al. 2020

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Energy management in harvesting enabled sensing nodes: Prediction and control

Ashraf

Faizan

Asif

et al. 2019

Journal of Network and Computer Applications

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Energy efficient transmission rate regulation of wireless sensing nodes, is a critical issue when operating in an energy harvesting (EH) enabled environment. In this work, we view the energy management problem as a queue control problem where the objective is to regulate transmission such that the energy level converges to a reference value. We employ a validated non-linear queuing model to derive two non-linear robust throughput controllers. A notable feature of the proposed scheme is its capability of predicting harvest-able energy. The predictions are generated using the proposed Accurate Solar Irradiance prediction Model (ASIM) whose effectiveness in generating accurate both long and short term predictions is demonstrated using real world data. The stability of the proposed controllers is established analytically and the effectiveness of the proposed strategies is demonstrated using simulations conducted on the Network Simulator (NS-3). The proposed policy is successful in guiding the energy level to the reference value, and outperforms the Throughput Optimal (TO) policy in terms of the throughput achieved.

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Waqar Asif

Features of Mobile Apps for People with Autism in a Post COVID-19 Scenario: Current Status and Recommendations for Apps Using AI

A Lightweight Blockchain Based Two Factor Authentication Mechanism for LoRaWAN Join Procedure

Dynamic Group Formation With Intelligent Tutor Collaborative Learning: A Novel Approach for Next Generation Collaboration

Securing the LoRaWAN join procedure using blockchains

Energy management in harvesting enabled sensing nodes: Prediction and control

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