Cloud service providers offer cost-effective, scalable data storage for a fraction of the cost of alternatives. Cloud resources are often shared by a large number of people, but they are also dynamically reallocated based on demand. Due to human error and hardware/software problems, cloud data integrity is questionable. Several methods have been developed by data holders and public verifiers to effectively verify the integrity of cloud data without retrieving all of the data from the cloud server. However, using these current methods, the general public may check the integrity of shared data. This technique for protecting privacy allows for a batch audit of cloud-stored common data. Using group signatures to ensure shared data correctness while calculating metadata. The identity of private information is unknown to public verifiers. Public verifiers in each shared data block preserve the identity of the signer using this privacy method. This protects the sensitive user data very well. Cloud storage audits may be loaded using this technique with ease, and it is also very cost-efficient and effective in its auditing.
Due to the revolutionary nature of the blockchain, it is now used not only in the financial and banking sectors. Currently, logistics management is very essential, since it plays a role to guarantee the most effective possible operation of the shipping, delivery, and supply chain management systems and processes. The blockchain makes it possible to communicate in a seamless and integrated manner. Current use cases are mostly concerned with bringing out all data together from many sources. It is possible to establish information openness, traceability, and tamper resistance, and consumers' data security is achieved effectively through blockchain by Cyber-Physical System (CPS). The security, automation, and intelligence of logistics business service transactions have all been compromised as a result of this. This Cyber-Physical System benefits in production planning, control, and monitoring are discussed in this paper, as well as the K-means algorithm for order allocation and how it may best serve customers' requirements.
Smart Home technology is increasing dramatically. Most of the developers offer central control units and different actuators and sensors which make it lively to control home appliances remotely via the Internet of Things or other gadgets like smartphones, tabs, etc. IoT is an assembly of microdevices that exchanges information through a Unique Identifier (ID number) with digital devices such as mobiles, tabs and remotely controls mechanical appliances such as air conditioners, microwave ovens, etc., without the aid of any human. All of the tools and systems are connected to the Internet of Things platform via sensors and exchange information through the Internet. With the introduction of IoT, the workload of service labor will be to reduced drastically. IoT technology has wide applications in homes, offices, industries, healthcare, etc., and are continuing to grow. The current implementation of 5G in telecommunication will further expand the growth of IoT. This paper explores modern IoT devices used in home automation by using Raspberry Pi.
Radiology is a field of medicine that focuses on the diagnosis and treatment of illness via the use of imaging technologies. Artificial intelligence in medical imaging has undoubtedly changed the way radiologists perform their duties. Machine learning and artificial intelligence are more important than ever, whether in smartphones, tablets and computers that we use every day to carry out our duties, or in the huge datasets processed to interpret images that serve as the backbone in the radiology profession. The radiology profession is cautious about the possibility of artificial intelligence (AI) replacing many radiologists. In this paper, we examine the issue and conclude that it will have no major effect on the radiology workforce.
Agriculture is an important activity in our country for a long time. The agricultural business expects a fundamental part of rural development. In India, about 70% of the people rely on farming and 33% of the country's capital comes from farming. Despite the improvements in the agricultural sector, there are issues that hinder the development of the country. To solve these issues smart agriculture (modernizing the existing agriculture methods) plays a significant role. Hence, the aim of this paper is to provide an overview of IoT based agriculture, role of IoT in agriculture, benefits of IoT, and reasons for implementing IoT in agriculture sector.
