Meryem Ammi scite author profile

Blockchain is a modern technology that has revolutionized the way society interacts and trades. It could be defined as a chain of blocks that stores information with digital signatures in a distributed and decentralized network. This technique was first adopted for the creation of digital cryptocurrencies, such as Bitcoin and Ethereum. However, research and industrial studies have recently focused on the opportunities that blockchain provides in various other application domains to take advantage of the main features of this technology, such as: decentralization, persistency, anonymity, and auditability. This paper reviews the use of blockchain in several interesting fields, namely: finance, healthcare, information systems, wireless networks, Internet of Things, smart grids, governmental services, and military/defense. In addition, our paper identifies the challenges to overcome, to guarantee better use of this technology.

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Customized blockchain-based architecture for secure smart home for lightweight IoT

Ammi

Alarabi

Benkhelifa

2021

Information Processing & Management

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Secure and Privacy-aware Blockchain-based Remote Patient Monitoring System for Internet of Healthcare Things

Zaabar

Cheikhrouhou

Ammi³

et al. 2021

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Multilevel Central Trust Management Approach for Task Scheduling on IoT-Based Mobile Cloud Computing

Ali

Iqbal

Jamil

et al. 2021

Sensors

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With the increasing number of mobile devices and IoT devices across a wide range of real-life applications, our mobile cloud computing devices will not cope with this growing number of audiences soon, which implies and demands the need to shift to fog computing. Task scheduling is one of the most demanding scopes after the trust computation inside the trustable nodes. The mobile devices and IoT devices transfer the resource-intensive tasks towards mobile cloud computing. Some tasks are resource-intensive and not trustable to allocate to the mobile cloud computing resources. This consequently gives rise to trust evaluation and data sync-up of devices joining and leaving the network. The resources are more intensive for cloud computing and mobile cloud computing. Time, energy, and resources are wasted due to the nontrustable nodes. This research article proposes a multilevel trust enhancement approach for efficient task scheduling in mobile cloud environments. We first calculate the trustable tasks needed to offload towards the mobile cloud computing. Then, an efficient and dynamic scheduler is added to enhance the task scheduling after trust computation using social and environmental trust computation techniques. To improve the time and energy efficiency of IoT and mobile devices using the proposed technique, the energy computation and time request computation are compared with the existing methods from literature, which identified improvements in the results. Our proposed approach is centralized to tackle constant SyncUPs of incoming devices’ trust values with mobile cloud computing. With the benefits of mobile cloud computing, the centralized data distribution method is a positive approach.

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Meryem Ammi

HealthBlock: A secure blockchain-based healthcare data management system

Blockchain for Modern Applications: A Survey

Customized blockchain-based architecture for secure smart home for lightweight IoT

Secure and Privacy-aware Blockchain-based Remote Patient Monitoring System for Internet of Healthcare Things

Multilevel Central Trust Management Approach for Task Scheduling on IoT-Based Mobile Cloud Computing

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