Your search keyword '"Nazir, Shah"' showing total 20 results

1. Intelligent Machine Learning Approach for Effective Recognition of Diabetes in E-Healthcare Using Clinical Data.

Author

Haq AU, Li JP, Khan J, Memon MH, Nazir S, Ahmad S, Khan GA, and Ali A

Subjects

Algorithms, Delivery of Health Care, Humans, ROC Curve, Diabetes Mellitus diagnosis, Machine Learning, Telemedicine

Abstract

Significant attention has been paid to the accurate detection of diabetes. It is a big challenge for the research community to develop a diagnosis system to detect diabetes in a successful way in the e-healthcare environment. Machine learning techniques have an emerging role in healthcare services by delivering a system to analyze the medical data for diagnosis of diseases. The existing diagnosis systems have some drawbacks, such as high computation time, and low prediction accuracy. To handle these issues, we have proposed a diagnosis system using machine learning methods for the detection of diabetes. The proposed method has been tested on the diabetes data set which is a clinical dataset designed from patient's clinical history. Further, model validation methods, such as hold out, K-fold, leave one subject out and performance evaluation metrics, includes accuracy, specificity, sensitivity, F1-score, receiver operating characteristic curve, and execution time have been used to check the validity of the proposed system. We have proposed a filter method based on the Decision Tree (Iterative Dichotomiser 3) algorithm for highly important feature selection. Two ensemble learning algorithms, Ada Boost and Random Forest, are also used for feature selection and we also compared the classifier performance with wrapper based feature selection algorithms. Classifier Decision Tree has been used for the classification of healthy and diabetic subjects. The experimental results show that the proposed feature selection algorithm selected features improve the classification performance of the predictive model and achieved optimal accuracy. Additionally, the proposed system performance is high compared to the previous state-of-the-art methods. High performance of the proposed method is due to the different combinations of selected features set and Plasma glucose concentrations, Diabetes pedigree function, and Blood mass index are more significantly important features in the dataset for prediction of diabetes. Furthermore, the experimental results statistical analysis demonstrated that the proposed method would effectively detect diabetes and can be deployed in an e-healthcare environment.

Published

2020

2. Ranking the art design and applications of artificial intelligence and machine learning.

Author

Xu, Yandong and Nazir, Shah

Abstract

Art design is a method of conveying human feelings and emotions, particularly via the use of visual structures such as paintings or sketches. Every element of our life, including arts and crafts, has been positively affected by the introduction of novel technologies such as artificial intelligence (AI) and machine learning (ML). In today's modern environment, these technologies have altered the techniques of art creation, consumption, and distribution. In today's environment, ML and human emotions are the two most important aspects for interactive and high‐quality art design. Whereas traditional learning systems can be extremely effective in the teaching and learning process of art‐related subjects, AI and ML can be very effective in the teaching and learning process of art‐related subjects for the advancement of learners' artistic skills. The productive and active role of AI and ML in the developments and advancements of art design has been given a very comprehensive and detailed overview in this study. Following a detailed examination of the existing techniques, distinct characteristics have been identified. Six of the most widely utilized features were chosen from the literature to execute the analytical hierarchy process (AHP). For ranking the options based on the weights derived by AHP, the TOPSIS algorithm is used. The option with the best performance came in first, whereas the one with the worst performance came in last. [ABSTRACT FROM AUTHOR]

Published

2024

3. Intelligent Decision Support Systems—An Analysis of Machine Learning and Multicriteria Decision-Making Methods.

Author

Ali, Rahman, Hussain, Anwar, Nazir, Shah, Khan, Sulaiman, and Khan, Habib Ullah

Subjects

DECISION support systems, MACHINE learning, ARTIFICIAL intelligence, MULTIPLE criteria decision making, DECISION making

Abstract

Context: The selection and use of appropriate multi-criteria decision making (MCDM) methods for solving complex problems is one of the challenging issues faced by decision makers in the search for appropriate decisions. To address these challenges, MCDM methods have effectively been used in the areas of ICT, farming, business, and trade, for example. This study explores the integration of machine learning and MCDM methods, which has been used effectively in diverse application areas. Objective: The objective of the research is to critically analyze state-of-the-art research methods used in intelligent decision support systems and to further identify their application areas, the significance of decision support systems, and the methods, approaches, frameworks, or algorithms exploited to solve complex problems. The study provides insights for early-stage researchers to design more intelligent and cost-effective solutions for solving problems in various application domains. Method: To achieve the objective, literature from the years 2015 to early 2020 was searched and considered in the study based on quality assessment criteria. The selected relevant literature was studied to respond to the research questions proposed in this study. To find answers to the research questions, pertinent literature was analyzed to identify the application domains where decision support systems are exploited, the impact and significance of the contributions, and the algorithms, methods, and techniques which are exploited in various domains to solve decision-making problems. Results: Results of the study show that decision support systems are widely used as useful decision-making tools in various application domains. The research has collectively studied machine learning, artificial intelligence, and multi-criteria decision-making models used to provide efficient solutions to complex decision-making problems. In addition, the study delivers detailed insights into the use of AI, ML and MCDM methods to the early-stage researchers to start their research in the right direction and provide them with a clear roadmap of research. Hence, the development of Intelligent Decision Support Systems (IDSS) using machine learning (ML) and multicriteria decision-making (MCDM) can assist researchers to design and develop better decision support systems. These findings can help researchers in designing more robust, efficient, and effective multicriteria-based decision models, frameworks, techniques, and integrated solutions. [ABSTRACT FROM AUTHOR]

Published

2023

4. A comprehensive overview of AI-enabled music classification and its influence in games.

Author

Yang, Tiancheng and Nazir, Shah

Subjects

*PEOPLE with visual disabilities, *MACHINE learning, *ARTIFICIAL intelligence, *MUSICAL composition, *SOUNDS

Abstract

With the development and advancement of information technology, artificial intelligence (AI) and machine learning are applied in every sector of life. Among these applications, music is one that has gained attention in the last couple of years. AI-based innovative and intelligent techniques are revolutionising the music industry. It is very convenient for composers to compose music of high quality using these technologies. Artificial intelligence and music (AIM) is one of the emerging fields used to generate and manage sounds for different media like the Internet, games, etc. Sound effects in games are very effective and can be made more attractive by implementing AI approaches. The quality of the sounds in the game directly impacts the productivity and experience of the player. With computer-assisted technologies, game designers can create sounds for different scenarios or situations like horror and suspense and provide gamers with information. The practical and productive audio of a game can guide visually impaired people during other events in the game. For the better creation and composition of music, a good quality of knowledge about musicology is essential. Due to AIM, there are a lot of intelligent and interactive tools available for the efficient and effective learning of music. Learners can be provided with a very reliable and interactive environment based on artificial intelligence. The current study has considered presenting a detailed overview of the literature available in the area of research. The study has demonstrated literature analysis from various perspectives, which will provide evidence for researchers to devise novel solutions in the field. [ABSTRACT FROM AUTHOR]

Published

2022

5. Analyzing IoT Attack Feature Association with Threat Actors.

Author

Shafiq, Muhammad, Gu, Zhaoquan, Nazir, Shah, and Yadav, Rahul

Subjects

FEATURE selection, DENIAL of service attacks, INTERNET of things, COMBINATORIAL optimization, CYBERTERRORISM, MACHINE learning

Abstract

Internet of Things (IoT) refers to the interconnection via the Internet of computing devices embedded in everyday objects, enabling them to send and receive data. These devices can be controlled remotely, which makes them susceptible to exploitation or even takeover by an attacker. The lack of security features on many IoT devices makes them easy to access confidential information, issue commands from a distance, or even use the compromised device as part of a DDoS attack against another network. Feature selection is an important part of problem formulation in machine learning. To overcome the above problems, this paper proposes a novel feature selection framework RFS for IoT attack detection using machine learning (ML) techniques. The RFS is based on the concept of effective feature selection and consists of three main stages: feature selection, modeling, and attacks detection. For feature selection, three different models are proposed. Based on these approaches, three different algorithms are proposed. A set of 40 features was included in the model, derived from combinatorial optimization and statistical analysis methods. Our experimental study shows that the proposed frame work significantly improves over state-of-the-art cyberattacks techniques for time series data with outliers. [ABSTRACT FROM AUTHOR]

Published

2022

6. Identification of Attack Traffic Using Machine Learning in Smart IoT Networks.

Author

Shafiq, Muhammad, Nazir, Shah, and Yu, Xiangzhan

Subjects

COMPUTERS, MACHINE learning, INTERNET of things, COMPUTER networks, CAPSULE neural networks, AD hoc computer networks, INTRUSION detection systems (Computer security)

Abstract

One such problem is how to select an effective ML algorithm when there are a number of ML algorithms for a cyber-attack detection system for IoT security. Recently, the IoT security research community has endeavoured to build anomaly, intrusion, and cyber-attack traffic identification models using machine learning algorithms for IoT security analysis. Identifying attack traffic is very important for the security of Internet of Things (IoT) in smart cities by using machine learning (ML) algorithms. [Extracted from the article]

Published

2022

7. Machine Learning-Based Detection of Spam Emails.

Author

Siddique, Zeeshan Bin, Khan, Mudassar Ali, Din, Ikram Ud, Almogren, Ahmad, Mohiuddin, Irfan, and Nazir, Shah

Subjects

SPAM email, URDU language, NATIVE language, MACHINE learning, SOCIAL media, PHISHING

Abstract

Social communication has evolved, with e-mail still being one of the most common communication means, used for both formal and informal ways. With many languages being digitized for the electronic world, the use of English is still abundant. However, various native languages of different regions are emerging gradually. The Urdu language, coming from South Asia, mostly Pakistan, is also getting its pace as a medium for communications used in social media platforms, websites, and emails. With the increased usage of emails, Urdu's number and variety of spam content also increase. Spam emails are inappropriate and unwanted messages usually sent to breach security. These spam emails include phishing URLs, advertisements, commercial segments, and a large number of indiscriminate recipients. Thus, such content is always a hazard for the user, and many studies have taken place to detect such spam content. However, there is a dire need to detect spam emails, which have content written in Urdu language. The proposed study utilizes the existing machine learning algorithms including Naive Bayes, CNN, SVM, and LSTM to detect and categorize e-mail content. According to our findings, the LSTM model outperforms other models with a highest score of 98.4% accuracy. [ABSTRACT FROM AUTHOR]

Published

2021

8. Agent-Based Simulators for Empowering Patients in Self-Care Programs Using Mobile Agents with Machine Learning.

Author

Kumar, Swarn Avinash, García-Magariño, Iván, Nasralla, Moustafa M., and Nazir, Shah

Subjects

HEALTH self-care, MACHINE learning, MOBILE apps, SIMULATED patients, ARTIFICIAL intelligence, HEART beat

Abstract

E-health sustainable systems can be optimized by empowering patients in self-care programs through artificial intelligence ecosystems in which both doctors and patients interact in an agile way. This work proposes agent-based simulators as a mechanism for predicting the repercussions of certain self-care programs in certain patients for finding the most appropriate ones. In order to make this easy for both doctors and patients, mobile agents are used to configure an app for each patient, and this app provides the resources to each self-care program. Mobile agents include a machine-learning module for learning which programs are the most appropriate for each patient. This approach is illustrated with two agent-based simulators for respectively reducing negative emotions such as depression and controlling heart rate variability extreme values related to stress. The resulting app was evaluated with a group of users with the Usefulness, Satisfaction and Ease of use (USE) scale and obtained 73% in usefulness, 77% in satisfaction, and 68% in ease of use. This trial is registered with According to the recommendations of the International Committee of Medical Journal Editors (ICMJE), this manuscript states that all experiments have been approved with the ethical committee CEICA from Community of Aragon (Spain) with registration number C.I.PI18/099. [ABSTRACT FROM AUTHOR]

Published

2021

9. Acquiring Data Traffic for Sustainable IoT and Smart Devices Using Machine Learning Algorithm.

Author

Huang, Yi, Nazir, Shah, Ma, Xinqiang, Kong, Shiming, and Liu, Youyuan

Subjects

SMART devices, MACHINE learning, DEEP learning, CONVOLUTIONAL neural networks, INTERNET of things, SMART cities

Abstract

Billions of devices are connected via the Internet which has produced various challenges and opportunities. The increase in the number of devices connected to the Internet of things (IoT) is nearly beyond imagination. These devices are communicating with each other and facilitating human life. The connection of these devices has provided opening directions for the smart applications which are one of the growing areas of research. Among these opportunities, security and privacy are considered to be one of the major issues for researchers to tackle. Proper security measures can prevent attackers from interrupting the security of IoT network inside the smart city for secure data traffic. Keeping in view the security consideration of data traffic for smart devices and IoT, the proposed study presented machine learning algorithms for securing the data traffic based on a firewall for smart devices and IoT network. The study has used the dataset of "Firewall" for validation purposes. The experimental results of the approach show that the hybrid deep learning model (based on convolution neural network and support vector machine) outperforms than decision1 rules and random forest by generating a recognition rate of 95.5% for the hybrid model, 68.5% for decision rules, and 78.3% accuracy for random forest. The validity of the proposed model is also tested based on other performance metrics such as f score, error rate, recall, and precision. This high accuracy rate and other performance values show the applicability of the proposed hybrid model to secure data traffic purposes in smart devices. This can be used in many research areas of the smart city for security purposes. [ABSTRACT FROM AUTHOR]

Published

2021

10. Software Birthmark Usability for Source Code Transformation Using Machine Learning Algorithms.

Author

Guan, Keqing, Nazir, Shah, Kong, Xianli, and Rehman, Sadaqat ur

Subjects

*MACHINE learning, *NEVUS, *PROGRAMMING languages, *COMPUTER software, *CLASSIFICATION algorithms, *SOURCE code

Abstract

Source code transformation is a way in which source code of a program is transformed by observing any operation for generating another or nearly the same program. This is mostly performed in situations of piracy where the pirates want the ownership of the software program. Various approaches are being practiced for source code transformation and code obfuscation. Researchers tried to overcome the issue of modifying the source code and prevent it from the people who want to change the source code. Among the existing approaches, software birthmark was one of the approaches developed with the aim to detect software piracy that exists in the software. Various features are extracted from software which are collectively termed as "software birthmark." Based on these extracted features, the piracy that exists in the software can be detected. Birthmarks are considered to insist on the source code and executable of certain programming languages. The usability of software birthmark can protect software by any modification or changes and ultimately preserve the ownership of software. The proposed study has used machine learning algorithms for classification of the usability of existing software birthmarks in terms of source code transformation. The K-nearest neighbors (K-NN) algorithm was used for classification of the software birthmarks. For cross-validation, the algorithms of decision rules, decomposition tree, and LTF-C were used. The experimental results show the effectiveness of the proposed research. [ABSTRACT FROM AUTHOR]

Published

2021

11. Fusion of Machine Learning and Privacy Preserving for Secure Facial Expression Recognition.

Author

Ullah, Asad, Wang, Jing, Anwar, M. Shahid, Ahmad, Arshad, Nazir, Shah, Khan, Habib Ullah, and Fei, Zesong

Subjects

FACIAL expression, MACHINE learning, PRIVACY, SOCIAL interaction, MENTAL illness

Abstract

The interest in Facial Expression Recognition (FER) is increasing day by day due to its practical and potential applications, such as human physiological interaction diagnosis and mental disease detection. This area has received much attention from the research community in recent years and achieved remarkable results; however, a significant improvement is required in spatial problems. This research work presents a novel framework and proposes an effective and robust solution for FER under an unconstrained environment; it also helps us to classify facial images in the client/server model along with preserving privacy. There are a lot of cryptography techniques available but they are computationally expensive; on the other side, we have implemented a lightweight method capable of ensuring secure communication with the help of randomization. Initially, we perform preprocessing techniques to encounter the unconstrained environment. Face detection is performed for the removal of excessive background and it detects the face in the real-world environment. Data augmentation is for the insufficient data regime. A dual-enhanced capsule network is used to handle the spatial problem. The traditional capsule networks are unable to sufficiently extract the features, as the distance varies greatly between facial features. Therefore, the proposed network is capable of spatial transformation due to the action unit aware mechanism and thus forwards the most desiring features for dynamic routing between capsules. The squashing function is used for classification purposes. Simple classification is performed through a single party, whereas we also implemented the client/server model with privacy measurements. Both parties do not trust each other, as they do not know the input of each other. We have elaborated that the effectiveness of our method remains unchanged by preserving privacy by validating the results on four popular and versatile databases that outperform all the homomorphic cryptographic techniques. [ABSTRACT FROM AUTHOR]

Published

2021

12. A Smart Machine Learning Model for the Detection of Brain Hemorrhage Diagnosis Based Internet of Things in Smart Cities.

Author

Chen, Hang, Khan, Sulaiman, Kou, Bo, Nazir, Shah, Liu, Wei, and Hussain, Anwar

Subjects

COMPUTERS, SMART cities, MACHINE learning, WIRELESS sensor networks, SUPPORT vector machines, INTERNET of things, FEEDFORWARD neural networks

Abstract

Generally, the emergence of Internet of Things enabled applications inspired the world during the last few years, providing state-of-the-art and novel-based solutions for different problems. This evolutionary field is mainly lead by wireless sensor network, radio frequency identification, and smart mobile technologies. Among others, the IoT plays a key role in the form of smart medical devices and wearables, with the ability to collect varied and longitudinal patient-generated health data, and at the same time also offering preliminary diagnosis options. In terms of efforts made for helping the patients using IoT-based solutions, experts exploit capabilities of the machine learning algorithms to provide efficient solutions in hemorrhage diagnosis. To reduce the death rates and propose accurate treatment, this paper presents a smart IoT-based application using machine learning algorithms for the human brain hemorrhage diagnosis. Based on the computerized tomography scan images for intracranial dataset, the support vector machine and feedforward neural network have been applied for the classification purposes. Overall, classification results of 80.67% and 86.7% are calculated for the support vector machine and feedforward neural network, respectively. It is concluded from the resultant analysis that the feedforward neural network outperforms in classifying intracranial images. The output generated from the classification tool gives information about the type of brain hemorrhage that ultimately helps in validating expert's diagnosis and is treated as a learning tool for trainee radiologists to minimize the errors in the available systems. [ABSTRACT FROM AUTHOR]

Published

2020

13. Multicriteria Decision and Machine Learning Algorithms for Component Security Evaluation: Library-Based Overview.

Author

Zhang, Jibin, Nazir, Shah, Huang, Ansheng, and Alharbi, Abdullah

Subjects

MACHINE learning, SEARCH algorithms, INFORMATION technology security, COMPUTER software reusability

Abstract

Components are the significant part of a system which plays an important role in the functionality of the system. Components are the reusable part of a system which are already tested, debugged, and experienced based on the previous practices. A new system is developed based on the reusable components, as reusability of components is recommended to save time, effort, and resources as such components are already made. Security of components is a significant constituent of the system to maintain the existence of the component as well as the system to function smoothly. Component security can protect a component from illegal access and changing its contents. Considering the developments in information security, protecting the components becomes a fundamental issue. In order to tackle such issues, a comprehensive study report is needed which can help practitioners to protect their system. The current study is an endeavor to report some of the existing studies regarding component security evaluation based on multicriteria decision and machine learning algorithms in the popular searching libraries. [ABSTRACT FROM AUTHOR]

Published

2020

14. Deep Learning Algorithms and Multicriteria Decision-Making Used in Big Data: A Systematic Literature Review.

Author

Yang, Mei, Nazir, Shah, Xu, Qingshan, and Ali, Shaukat

Subjects

MACHINE learning, DECISION support systems, BIG data, COMPUTER science, DEEP learning, WIRELESS Internet

Abstract

The data are ever increasing with the increase in population, communication of different devices in networks, Internet of Things, sensors, actuators, and so on. This increase goes into different shapes such as volume, velocity, variety, veracity, and value extracting meaningful information and insights, all are challenging tasks and burning issues. Decision-making based on multicriteria is one of the most critical issues solving ways to select the most suitable decision among a number of alternatives. Deep learning algorithms and multicriteria-based decision-making have effective applications in big data. Derivations are made based on the use of deep algorithms and multicriteria. Due to its effectiveness and potentiality, it is exploited in several domains such as computer science and information technology, agriculture, and business sector. The aim of the proposed study is to present a systematic literature study in order to show the applications of deep learning algorithms and multicriteria decision approaches for the problems of big data. The research finds novel means to make the decision support system for the problems of big data using multiple criteria in integration with machine learning and artificial intelligence approaches. [ABSTRACT FROM AUTHOR]

Published

2020

15. Recognition of the parkinson's disease using a hybrid feature selection approach.

Author

Ul Haq, Amin, Li, Jianping, Memon, Muhammad Hammad, khan, Jalaluddin, Ali, Zafar, Abbas, Syed Zaheer, and Nazir, Shah

Subjects

PARKINSON'S disease, ANT algorithms, SUPPORT vector machines, FEATURE selection, ALGORITHMS, OBJECT recognition (Computer vision)

Abstract

Accurate and efficient recognition of Parkinson's disease is one of the prominent issues in the field of healthcare. To address this problem, different methods have been proposed in the literature. However, existing methods are lacking in accurately recognizing the Parkinson's disease and suffer from efficiency problems. To overcome these problems faced by existing models, this paper presents a machine-learning-based model for Parkinson's disease recognition. Specifically, a hybrid feature selection algorithm has been designed by integrating the Relief and ant-colony optimization algorithms to select relevant features for training the model. Moreover, the support vector machine has been trained and tested on the selected features to achieve optimal classification accuracy. Additionally, the K-fold cross-validation technique has been employed for the optimal hyper-parameters value evaluation of the model.The experimental results on a real-world dataset, i.e., Parkinson's disease dataset is revealed that the proposed system outperforms baseline competitors by accurately recognizing the Parkinson's disease and achieving 99.50% accuracy on the selected features. Due to high performance is achieved our proposed method, we are highly recommended for the recognition of PD. [ABSTRACT FROM AUTHOR]

Published

2020

16. Partial Observer Decision Process Model for Crane-Robot Action.

Author

Khan, Asif, Li, Jian Ping, Haq, Amin ul, Nazir, Shah, Ahmad, Naeem, Varish, Naushad, Malik, Asad, and Patel, Sarosh H.

Subjects

CRANES (Machinery), DECISION making, HUMAN-robot interaction, BOLTZMANN machine, TIME perspective, MACHINE learning, ROBOTS

Abstract

The most common use of robots is to effectively decrease the human's effort with desirable output. In the human-robot interaction, it is essential for both parties to predict subsequent actions based on their present actions so as to well complete the cooperative work. A lot of effort has been devoted in order to attain cooperative work between human and robot precisely. In case of decision making , it is observed from the previous studies that short-term or midterm forecasting have long time horizon to adjust and react. To address this problem, we suggested a new vision-based interaction model. The suggested model reduces the error amplification problem by applying the prior inputs through their features, which are repossessed by a deep belief network (DBN) though Boltzmann machine (BM) mechanism. Additionally, we present a mechanism to decide the possible outcome (accept or reject). The said mechanism evaluates the model on several datasets. Hence, the systems would be able to capture the related information using the motion of the objects. And it updates this information for verification, tracking, acquisition, and extractions of images in order to adapt the situation. Furthermore, we have suggested an intelligent purifier filter (IPF) and learning algorithm based on vision theories in order to make the proposed approach stronger. Experiments show the higher performance of the proposed model compared to the state-of-the-art methods. [ABSTRACT FROM AUTHOR]

Published

2020

17. A Hybrid Intelligent System Framework for the Prediction of Heart Disease Using Machine Learning Algorithms.

Author

Ul Haq, Amin, Jian Ping Li, Memon, Muhammad Hammad, Nazir, Shah, and Sun, Ruinan

Subjects

MACHINE learning, HEART disease diagnosis, DIAGNOSTIC expert systems, ARTIFICIAL intelligence in medicine, COMPUTERS in medicine

Abstract

Heart disease is one of the most critical human diseases in the world and affects human life very badly. In heart disease, the heart is unable to push the required amount of blood to other parts of the body. Accurate and on time diagnosis of heart disease is important for heart failure prevention and treatment. 0e diagnosis of heart disease through traditional medical history has been considered as not reliable in many aspects. To classify the healthy people and people with heart disease, noninvasive-based methods such as machine learning are reliable and efficient. In the proposed study, we developed a machine-learning-based diagnosis system for heart disease prediction by using heart disease dataset. We used seven popular machine learning algorithms, three feature selection algorithms, the cross-validation method, and seven classifiers performance evaluation metrics such as classification accuracy, specificity, sensitivity, Matthews' correlation coefficient, and execution time. 0e proposed system can easily identify and classify people with heart disease from healthy people. Additionally, receiver optimistic curves and area under the curves for each classifier was computed. We have discussed all of the classifiers, feature selection algorithms, preprocessing methods, validation method, and classifiers performance evaluation metrics used in this paper. 0e performance of the proposed system has been validated on full features and on a reduced set of features. 0e features reduction has an impact on classifiers performance in terms of accuracy and execution time of classifiers. 0e proposed machine-learning-based decision support system will assist the doctors to diagnosis heart patients efficiently. [ABSTRACT FROM AUTHOR]

Published

2018

18. Influential Usage of Big Data and Artificial Intelligence in Healthcare.

Author

Yang, Yan Cheng, Islam, Saad Ul, Noor, Asra, Khan, Sadia, Afsar, Waseem, and Nazir, Shah

Subjects

*TELEMEDICINE, *ARTIFICIAL intelligence, *BIG data, *METADATA, *MACHINE learning, *DIAGNOSIS

Abstract

Artificial intelligence (AI) is making computer systems capable of executing human brain tasks in many fields in all aspects of daily life. The enhancement in information and communications technology (ICT) has indisputably improved the quality of people's lives around the globe. Especially, ICT has led to a very needy and tremendous improvement in the health sector which is commonly known as electronic health (eHealth) and medical health (mHealth). Deep machine learning and AI approaches are commonly presented in many applications using big data, which consists of all relevant data about the medical health and diseases which a model can access at the time of execution or diagnosis of diseases. For example, cardiovascular imaging has now accurate imaging combined with big data from the eHealth record and pathology to better characterize the disease and personalized therapy. In clinical work and imaging, cancer care is getting improved by knowing the tumor biology and helping in the implementation of precision medicine. The Markov model is used to extract new approaches for leveraging cancer. In this paper, we have reviewed existing research relevant to eHealth and mHealth where various models are discussed which uses big data for the diagnosis and healthcare system. This paper summarizes the recent promising applications of AI and big data in medical health and electronic health, which have potentially added value to diagnosis and patient care. [ABSTRACT FROM AUTHOR]

Published

2021

19. A survey of deep learning techniques based Parkinson's disease recognition methods employing clinical data.

Author

Haq, Amin ul, Li, Jian Ping, Agbley, Bless Lord Y., Mawuli, Cobbinah Bernard, Ali, Zafar, Nazir, Shah, and Din, Salah Ud

Subjects

*PARKINSON'S disease, *DEEP learning, *FEATURE selection, *DIAGNOSIS methods, *DIAGNOSIS

Abstract

Parkinson's disease (PD) is a critical neurological ailment that affects millions of individuals worldwide. A correct diagnosis of Parkinson's disease is required for effective treatment. Deep learning (DL) algorithms based on various diagnostic methodologies have been developed to detect PD and resolve related diagnostic issues. This research study offers a complete assessment of published surveys and DL-based diagnosis methodologies for PD recognition. The techniques of DL-based diagnostic approaches for PD recognition, such as PD dataset pre-processing, extraction and selection of features, and classification, are all included in this survey. The limitations and benefits of the proposed methods have also been examined and explored. In addition, we discussed the various datasets used to evaluate the suggested PD recognition algorithms in order to better understand these datasets. The model evaluation metrics and cross-validation techniques used by different studies in this domain have also been explored in this survey. In light of the evaluated literature, we also examined hot upcoming research issues and related solutions. Finally, we came up with several trends and areas for future study that will aid progress in automatic disease recognition, particularly in detecting Parkinson's disease and its implementation in E-healthcare systems. • A systematic review of deep learning methods for Parkinson's disease diagnosis. • The review explored all existing reviews with their advantages and limitations. • All datasets and evaluation metrics used in state-of-the-art methods are explored. • Numerical results comparison was also provided for state-of-the-art methods. • Challenges and future directions in the domain of Parkinson disease are presented. [ABSTRACT FROM AUTHOR]

Published

2022

20. Distributed optimization of heterogeneous UAV cluster PID controller based on machine learning.

Author

Yan, Li, Webber, Julian L., Mehbodniya, Abolfazl, Moorthy, Balakrishna, Sivamani, S., Nazir, Shah, and Shabaz, Mohammad

Subjects

*PID controllers, *MACHINE learning, *ARTIFICIAL satellite attitude control systems, *SQUARE waves, *FUZZY control systems, *DRONE aircraft

Abstract

To resolve the problem of membership value and the control effect reliant on expert knowledge, a PID control approach based on an adaptive fuzzy PID-UAV attitude controller is proposed. The experimental findings demonstrate that the Unmanned Aerial Vehicle (UAV) is stable at the desired height of 2 m within 6 s after takeoff, and that altitude control can be accomplished with a single PID controller. It has been established that the control system has the advantages of high precision and ease of implementation, but the fuzzy controller has the advantages of minimal overshoot and transient response, as well as the ability to achieve precise and rapid behaviour control. When obtaining continuous square wave instructions, fuzzy PID has more obvious advantages than regular PID. The system has superior tracking and antiinterference, can achieve stable control faster, and has great dynamic and static properties. [ABSTRACT FROM AUTHOR]

Published

2022