5 research outputs found
Construction and Use Examples of Private Electronic Notary Service in Educational Institutions
Get PDFPeople have many documents. For example, a variety of documents are prepared and used in public institutions. As the internet becomes widely available in recent years, paper documents are being replaced with electronic data, which are often distributed in the form of electronic data without being printed out. Similarly, in educational institutions, increasing number of documents are distributed in the form of electronic data. Such data are distributed through various routes and means, and prone to the risk of alteration in the process. Data may be protected against alteration, but it is difficult to completely prevent data alteration in the distribution process. Data can be generated with electronic signature that allows for the identification of data creator and possible alterations by third parties. This method is, however, not valid if the data becomes separated from the electronic signature, making the validation of data creator or data alterations difficult or impossible. In this paper, we describe the invention of a system that, even in cases where data is separated form the electronic signature, enables easy identification of possible data alterations by the electronic signature management. And we describe here an exploratory construction of private electronic notary service in university. We also add a review on the utilization method of private electronic notary service in universities
Construction and Use Examples of Private Electronic Notary Service in Educational Institutions
Get PDFPeople have many documents. For example, a variety of documents are prepared and used in public institutions. As the internet becomes widely available in recent years, paper documents are being replaced with electronic data, which are often distributed in the form of electronic data without being printed out. Similarly, in educational institutions, increasing number of documents are distributed in the form of electronic data. Such data are distributed through various routes and means, and prone to the risk of alteration in the process. Data may be protected against alteration, but it is difficult to completely prevent data alteration in the distribution process. Data can be generated with electronic signature that allows for the identification of data creator and possible alterations by third parties. This method is, however, not valid if the data becomes separated from the electronic signature, making the validation of data creator or data alterations difficult or impossible. In this paper, we describe the invention of a system that, even in cases where data is separated form the electronic signature, enables easy identification of possible data alterations by the electronic signature management. And we describe here an exploratory construction of private electronic notary service in university. We also add a review on the utilization method of private electronic notary service in universities
Recent Developments in Mobile Cloud Scheduling: State-of-the-Art, Challenges and Perspectives, Journal of Telecommunications and Information Technology, 2013, nr 4
Get PDFCloud computing became recently one of the most popular multi-layer distributed computational and data processing environments with various types of services, distributed data storages and resources. With rapid development of mobile technologies, computational clouds have been transformed into the systems with dynamically changing topology and flexible infrastructure through integration with the mobile devices and mobile users as the whole system nodes and actors. The aim of this paper is to provide a comprehensive study and critical comparative analysis of the recent developments in the Mobile Clouds with a new energy optimization criterion scheduling
Towards the use of Pairing-Based Cryptography for Resource-Constrained Home Area Networks
Get PDFAbstract-In the prevailing smart grid, the Home Area Network (HAN) will become a critical infrastructure component at the consumer premises. The HAN provides the electricity infrastructure with a bi-directional communication infrastructure that allows monitoring and control of electrical appliances. HANs are typically equipped with wireless sensors and actuators, built from resource-constrained hardware devices, that communicate by using open standard protocols. This raises concerns on the security of these networked systems. Because of this, securing a HAN to a proper degree becomes an increasingly important task. In this paper, a security model, where an adversary may exploit the system both during HAN setup as well as during operations of the network, is considered. We propose a scheme for secure bootstrapping of wireless HAN devices based on IdentityBased Cryptography (IBC). The scheme minimizes the number of exchanged messages needed to establish a session key between HAN devices. The feasibility of the approach is demonstrated from a series of prototype experiments
