Overcoming Delays And Denials In Uae Home Insurance Claims – Open Access Policy Institutional Open Access Program Special Issues Guidelines Editorial Process Research and Publication Article Ethics Processing Fees Awards Testimonials
All articles published by are made available immediately worldwide under an open access license. No special permission is required to reuse all or part of articles published by , including figures and tables. For articles published under the Creative Common CC BY open access license, any part of the article may be reused without permission provided that the original article is clearly cited. For more information, please refer to https:///openaccess.
Overcoming Delays And Denials In Uae Home Insurance Claims
The topical papers represent the most cutting-edge research with significant potential for high impact in the field. The featured article should be an important original paper that includes some technique or approach, provides perspective for future research directions, and describes possible research applications.
The Iran Nuclear Deal At Six: Now Or Never
Featured articles are submitted at the invitation or personal recommendation of the scientific editors and must receive positive feedback from reviewers.
Editors’ Choice Articles are based on recommendations from scientific editors of journals around the world. The editors select a small number of recently published articles in the journal that they believe will be particularly interesting to readers or important in the respective field of study. The aim is to provide an overview of some of the most interesting work published in the journal’s various research areas.
By Seeydnima Khezr Seeydnima Khezr Scilit Preprints.org Google Scholar 1, * , Md Moniruzzaman Md Moniruzzaman Scilit Preprints.org Google Scholar 1, Abdulsalam Yassine Abdulsalam Yassine Scilit Preprints.org Google Scholar 2 and Rachid Benlamri Rachid Benlamri Preprints Scholar 2 Google Scilit Preprints
Received: April 1, 2019 / Modified: April 21, 2019 / Accepted: April 22, 2019 / Published: April 26, 2019
Teenage Girl Dies As Violent Storms Strike Northern Italy And Wildfires Sweep Across Sicily
One of the most important discoveries and innovative developments that are playing an important role in today’s professional world is blockchain technology. Blockchain technology moves in the direction of revolution and enduring change. It is a chain of blocks that includes information and maintains trust between individuals no matter how far away they are. In the last few years, the explosion of blockchain technology has forced scholars and experts to scrutinize new ways to apply blockchain technology to a variety of fields. The dramatic rise of blockchain technology has brought many new application opportunities, including healthcare applications. This survey provides a comprehensive assessment of emerging blockchain-based healthcare technologies and related applications. In this investigation, we call attention to open research issues in this rapidly growing field, explaining them in detail. We also show the potential of blockchain technology in revolutionizing the healthcare industry.
The rapid growth of digitization in healthcare has led to the creation of huge electronic records of patients. Such growth poses an unprecedented need for healthcare data protection during use and exchange. The development of blockchain technology as a responsible and transparent data storage and distribution mechanism is paving the way for new potentials in solving serious privacy, security and privacy issues. data integrity in healthcare. Blockchain technology has attracted considerable attention from industry as well as academia over the past few years. Indeed, new blockchain applications and research appear every day [1, 2, 3, 4]. Blockchain technology is defined as a distributed ledger technology for peer-to-peer (P2P) network digital data transactions that can be distributed publicly or privately to all users, allowing any type of data to be data is stored in a reliable and verifiable way [1, 5]. Another key blockchain concept is the smart contract, a legally binding policy consisting of a customizable set of rules by which different parties agree to interact with each other in an automated fashion. decentralized [6, 7]. Blockchain technology has created many smart contract applications in a number of areas, from energy resources [8], financial services [9, 10], voting [11, 12, 13] and caregiving. health care [6]. Blockchain technology brings transparency and eliminates the need for administrators or third-party intermediaries [1]. It uses cryptographic and consensus mechanisms to verify the legitimacy of transactions in an untrusted and untrusted environment [1, 14]. In the blockchain distributed P2P transaction network, the receiving node checks the message; if the message is correct then it will save it in a block. The consensus algorithm is then used to confirm the data in each block; this is called “Proof of Work (PoW)”. The block will be added to the chain after implementing the consensus algorithm, every node in the network acknowledges this block and continuously expands the chain [15, 16]. One of the most prominent applications of blockchain technology is healthcare. The potential of blockchain in healthcare is to overcome challenges related to data security, privacy, sharing and storage [17, 18]. One of the requirements for the healthcare industry is Interoperability. It is the ability of two parties, human or machine, to exchange data or information accurately, efficiently and consistently [19, 20, 21, 22]. The goal of healthcare interoperability is to facilitate the exchange of health-related information, such as electronic health records (EHRs), between care providers. health and patient systems so that data can be shared in the environment and distributed by different hospital systems [23, 24, 25, 26]. Furthermore, interoperability allows providers to securely share a patient’s medical records (with the patient’s permission to do so), regardless of the provider’s location and trust relationship. trust between them [27]. This is especially important because healthcare data sources are diverse. This interoperability aspect is addressed using blockchain technology which shows the potential to securely store, manage, and share EHRs among healthcare communities [28]. In addition, increasing costs of healthcare infrastructure and industry software have put enormous pressure on world economies [29]. In the healthcare sector, blockchain technology is positively influencing the healthcare outcomes of companies and stakeholders to optimize business processes, improve patient outcomes, and improve patient outcomes. manage patient data, enhance compliance, reduce costs, and enable better use of healthcare-related data [30]. Equally important is the ability of blockchain technology to influence the flow of drugs and medical devices in long complex healthcare supply chains. Blockchain for the healthcare supply chain promises to eliminate the risk of counterfeit medicines endangering patients globally. Blockchain technology is currently being explored across various healthcare applications such as data management, storage, device connectivity, and security in the Internet of Things (IoMT). Most of the benefits provided by blockchain technology in the application areas mentioned above have positively impacted the quality of experience (QoE) of most stakeholders and end users, including patients, caregivers, researchers, pharmaceutical companies and insurance companies. The ability to share healthcare data without the risk of jeopardizing user privacy and data security is an essential step towards making healthcare systems smarter and improving healthcare service quality as well as user experience. The purpose of this paper is to provide a timely assessment of the applications of blockchain technology in healthcare and their impact on healthcare economies, QoE, and business opportunities. new.
Currently, there are a number of reviews in the open literature that refer to the application of blockchain technology in areas such as finance [31, 32, 33, 34], internet of things (IoT) [35, 36, 37, 38, 39], energy sector [8, 40, 41], government [42, 43, 44], privacy and security [15, 45, 46, 47]. Although several review papers are addressing applications of blockchain technology in healthcare, a comprehensive critical review of the most recent research on blockchain-based healthcare applications are not mentioned. For example, the work presented by Mettler [48] provides a brief review of healthcare applications using blockchain technology. The study only looked at three areas: public health management, consumer-facing health, and counterfeit drugs. While this study is the first to present a high-level review of emerging blockchain-based healthcare applications, it mainly focuses on the functional aspects and benefits of that technology. In 2017, Kuo et al. [49] published another review of medical and biomedical applications based on blockchain technology. Work in Kuo et al. [49] mainly discussed the traditional blockchain technology (the features of bitcoin) and its architecture. The authors then describe several aspects of blockchain technology for medical records management, insurance claims processes, biomedical research, and health data ledgers. In addition, the authors did not explain the technical aspects of how knowledge should be distributed centrally. In a similar study, Stagnaro et al. [50] describes several use cases for applying blockchain technology in healthcare. Use cases specifically focus on tailoring interoperability requirements and patient care records, as well as supply chain management (SCM). The main shortcoming of the study is the limitation on use cases and the failure to closely track new blockchain-based healthcare applications. Holbl et al. [51] provides organized analysis of healthcare applications using blockchain technology. The authors discussed several articles published in the field between 2008 and 2019 and provided a systematic literature review. However, it does not critically evaluate the tests performed in the studied application areas. In another related work, Radanović and Likić [52] looked at blockchain technology in medicine, including health insurance, EHR, drug delivery, biomedical research, procurement processes, and medical education economic. Similar to other surveys, the article
Claims for flight delays, claims in insurance, construction delays extensions of time and prolongation claims, flight delays claims, denials and actions in medical billing, eu claims flight delays, home insurance claims adjuster, eu claims for flight delays, usaa home insurance claims, overcoming developmental delays, claims system in insurance, examples of claims denials
