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The research project intends to comprehend the aspects of the gifted, talented, and innovative (GTI) environment that these countries are providing by studying the policies of the US and a few selected European nations. The research will take the suggestions from the policymakers and beneficiaries of these programs from the USA and Europe and compare them to the UAE government's present strategies for retaining the GTI workforce. Data gathering for the study will use a hybrid methodology so that it may benefit from qualitative form while also serving as the foundation for the collection of quantitative data for tangible results.
Eschew Brain drain and nurture brain bank in UAE - Lessons from US and European Countries
Wearable technology is essential to the health care system. The technology for human-computer interaction enhances information accuracy, speed of information processing, battery life, and the user experience. A full user-friendly, safe, and trustworthy medical ecosystem is being developed by combining big data, cloud computing/blockchain, and IoT. This also contributes to the expansion of the usage of wearable technology in other industries, such as telemedicine, preventative medicine, epidemiology, etc.
https://www.youtube.com/watch?v=j_KOc5B1Bf4&ab_channel=MadhusudanSingh
Blockchain in Bio-Healthcare 4.0
Wearable technology is essential to the health care system. The technology for human-computer interaction to enhance information accuracy, speed of information processing, battery life, and user experience A full user-friendly, safe, and trustworthy medical ecosystem is being developed by combining big data, cloud computing/blockchain, and IoT. This also contributes to the expansion of the usage of wearable technology in other industries, such as telemedicine, preventative medicine, epidemiology, etc.
https://www.youtube.com/watch?v=kFU1MT737zk&ab_channel=MadhusudanSingh
Wearable Bio Healthcare 4.0
This project aims to develop an effective curriculum plan for promoting digital transformation in various different industries. While learning about digital transformation methods and processes, the students will also cover the most recent and advanced technologies (such as artificial intelligence, data science, or blockchain). As a result, students’ digital literacy will also be expanded. Therefore, the ultimate goal of this curriculum plan is to boost job opportunities for all students, where the employment rate will be enhanced accordingly.
Courses included in the program:
AI-Driven Digital Transformation [https://www.youtube.com/watch?v=7Rd9OpauUNo&t=1s&ab_channel=MadhusudanSingh]
Blockchain Technology for Digital Business Model [https://www.youtube.com/watch?v=l6YoVmzy4PY&ab_channel=MadhusudanSingh ]
Digital Data Literacy in Digital Transformation
Creative Convergence Minor Track Curriculum Development
The project aims to work in the context of the fourth industrial revolution, or Industry 4.0, which consists of a natural evolution involving aspects of production, relating new communication resources, data processing, and approaches to manufacturing, expanding the possibilities of increasing industrial productivity, management of resources, and performance of the firm, with broad positive impacts in several areas. This process is allowing new software and artificial intelligence resources to be continuously associated with platforms and production systems, using advances in the area of microelectronics, computing, and data communication, generating the conditions for automation of prediction, monitoring, and planning, thus optimizing production. https://link.springer.com/book/10.1007/978-981-15-1137-0
The project aims to operate within the framework of the fourth industrial revolution, or Industry 4.0, which consists of a natural evolution involving production-related aspects, relating to new communication resources, data processing, and manufacturing approaches, expanding the possibilities of increasing industrial productivity, resource management, and firm performance, with broad positive impacts in a number of areas. Using developments in microelectronics, computing, and data communication, this process enables new software and artificial intelligence resources to be continuously associated with platforms and production systems, creating the conditions for automation of prediction, monitoring, and planning and thereby optimizing production.
Courses included in the program:
Data Discovery & Data Exploration from the interdisciplinary field helps to discover, collect, analyze, select explore and visualize the big data.
Data Science General Education Curriculum Design
A self-driving automobile, or intelligent vehicle (IV), is a vehicle with internet connectivity that allows for vehicle-to-everything connections. This communication environment lacks security and contains a number of weaknesses. The key issues with IV communication are the accuracy, precision, and security of the data that is received and sent through the communication channel. In this paper, we offer blockchain technology as a means of enhancing trust and dependability in peer-to-peer networks with IV-like communication topologies. Additionally, we put out a use case for IV communication that uses blockchain technology. IV communication takes place in a safe, reliable environment created using blockchain technology. In the intelligent transportation system, this trusted environment offers a secure, distributed, and decentralized means for communication among IVs without revealing their private information.
Blockchain enable Secure Autonomous Vehicles
This project overcomes certain hindrances in the doctor-patient data industry proficiently by integrating its own technologies with blockchain. It establishes trust on a less decentralized market platform and creates a space in which relevant data can be efficiently distributed by simplifying the data extraction and collection process, providing crypto currency as an incentive for data provision, and establishing trust on a less decentralized market platform. In addition, Sirona Pharma establishes an environment that allows Sirona Coin, acquired through rewards, to be used in appointment management, medical insurance design, treatment expenses, etc. Through convergence with blockchain, Sirona Pharma will overcome the transitional impediments and create an unidentifiable doctor-patient data ecosystem that ensures the rights of data subjects. It is also a decentralized data market platform where patient data is freely traded, and will develop synergistically with various DApps in the future medical ecosystem.
https://www.youtube.com/watch?v=jpqj_cQdrto&ab_channel=MadhusudanSingh
Decentralized Distributed Secure Trusted Pharma Technologies
In this project, we provide eHealthChain—a blockchain-based healthcare management system with two-sided verifiability for personal health information management systems (PHIMS), for managing health data originating from medical IoT devices and connected applications. The eHealthChain architecture consists of four layers: a blockchain layer for hosting a blockchain database, an IoT device layer for obtaining personal health data, an application layer for facilitating health data sharing, and an adapter layer, which interfaces the blockchain layer with the application layer. In comparison to existing systems, eHealthChain gives the user complete control over personal health data acquisition, sharing, and self-management. We also present a detailed implementation of a proof-of-concept (PoC) prototype of eHealthChain system built using the Hyperledger Fabric platform. https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0266916
eHealthChain- a Blockchain based personal health information management system [https://link.springer.com/article/10.1007/s12243-021-00868-6]
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