Institution
Khalifa University
Education•Abu Dhabi, United Arab Emirates•
About: Khalifa University is a education organization based out in Abu Dhabi, United Arab Emirates. It is known for research contribution in the topics: Computer science & Adsorption. The organization has 3752 authors who have published 10909 publications receiving 141629 citations.
Topics: Computer science, Adsorption, Population, Membrane, Cloud computing
Papers published on a yearly basis
Papers
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TL;DR: A high-level overview of various categories of phishing mitigation techniques is presented, such as: detection, offensive defense, correction, and prevention, which it is believed is critical to present where the phishing detection techniques fit in the overall mitigation process.
Abstract: This article surveys the literature on the detection of phishing attacks. Phishing attacks target vulnerabilities that exist in systems due to the human factor. Many cyber attacks are spread via mechanisms that exploit weaknesses found in end-users, which makes users the weakest element in the security chain. The phishing problem is broad and no single silver-bullet solution exists to mitigate all the vulnerabilities effectively, thus multiple techniques are often implemented to mitigate specific attacks. This paper aims at surveying many of the recently proposed phishing mitigation techniques. A high-level overview of various categories of phishing mitigation techniques is also presented, such as: detection, offensive defense, correction, and prevention, which we belief is critical to present where the phishing detection techniques fit in the overall mitigation process.
396 citations
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TL;DR: This paper proposes an approach that leverages the Ethereum blockchain and smart contracts efficiently perform business transactions for soybean tracking and traceability across the agricultural supply chain, eliminating the need for a trusted centralized authority, intermediaries and provides transactions records, enhancing efficiency and safety with high integrity, reliability, and security.
Abstract: The globalized production and the distribution of agriculture production bring a renewed focus on the safety, quality, and the validation of several important criteria in agriculture and food supply chains. The growing number of issues related to food safety and contamination risks has established an immense need for effective traceability solution that acts as an essential quality management tool ensuring adequate safety of products in the agricultural supply chain. Blockchain is a disruptive technology that can provide an innovative solution for product traceability in agriculture and food supply chains. Today’s agricultural supply chains are complex ecosystem involving several stakeholders making it cumbersome to validate several important criteria such as country of origin, stages in crop development, conformance to quality standards, and monitor yields. In this paper, we propose an approach that leverages the Ethereum blockchain and smart contracts efficiently perform business transactions for soybean tracking and traceability across the agricultural supply chain. Our proposed solution eliminates the need for a trusted centralized authority, intermediaries and provides transactions records, enhancing efficiency and safety with high integrity, reliability, and security. The proposed solution focuses on the utilization of smart contracts to govern and control all interactions and transactions among all the participants involved within the supply chain ecosystem. All transactions are recorded and stored in the blockchain’s immutable ledger with links to a decentralized file system (IPFS) and thus providing to all a high level of transparency and traceability into the supply chain ecosystem in a secure, trusted, reliable, and efficient manner.
392 citations
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TL;DR: Bio-inspired multifunctional composite films based on reduced poly(vinyl alcohol)/graphene oxide (R-PVA/GO) layers are prepared by a facile solution casting method followed by a reduction procedure that have excellent mechanical properties, electrical conductivity, and biocompatibility.
Abstract: Bio-inspired multifunctional composite films based on reduced poly(vinyl alcohol)/graphene oxide (R-PVA/GO) layers are prepared by a facile solution casting method followed by a reduction procedure. The resulting films with nacre-like, bricks-and-mortar microstructure have excellent mechanical properties, electrical conductivity, and biocompatibility.
382 citations
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TL;DR: In this paper, the compressive response of lattice structures based on two simple architectures, namely, a body-centred cubic structure (BCC) and a similar structure with vertical pillars, were used to model the structures under quasi-static compressive loads.
380 citations
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TL;DR: The role of Tregs in the tumor microenvironment and in cancer progression focusing on human studies is critically examined and the impact of current therapeutic modalities on Treg biology and the therapeutic opportunities for targeting T Regs to enhance anti-tumor immune responses and clinical benefits are discussed.
370 citations
Authors
Showing all 3860 results
Name | H-index | Papers | Citations |
---|---|---|---|
Xavier Estivill | 110 | 673 | 59568 |
Gordon McKay | 97 | 661 | 61390 |
Muhammad Imran | 94 | 3053 | 51728 |
Muhammad Shahbaz | 92 | 1001 | 34170 |
Paul J. Thornalley | 89 | 321 | 27613 |
Paolo Dario | 86 | 1034 | 31541 |
N. Vilchez | 83 | 133 | 25834 |
Andrew Jones | 83 | 695 | 28290 |
Christophe Ballif | 82 | 696 | 26162 |
Khaled Ben Letaief | 79 | 774 | 29387 |
Muhammad Iqbal | 77 | 961 | 23821 |
George K. Karagiannidis | 76 | 653 | 24066 |
Hilal A. Lashuel | 73 | 233 | 18485 |
Nasir Memon | 73 | 392 | 19189 |
Nidal Hilal | 72 | 395 | 21524 |