Notice Board :





Volume XIV Issue II

Author Name
Vivek Kumar, Chetan Agarwal
Year Of Publication
2022
Volume and Issue
Volume 14 Issue 2
Abstract
Recently, vehicular ad hoc networks (VANETs) got much popularity and are now being considered as integral parts of the automobile industry. As a subclass of MANETs, the VANETs are being used in the intelligent transport system (ITS) to support passengers, vehicles, and facilities like road protection, including misadventure warnings and driver succor, along with other infotainment services. The advantages and comforts of VANETs are obvious; however, with the continuous progression in autonomous automobile technologies, VANETs are facing numerous security challenges including DoS, Sybil, impersonation, replay, and related attacks. This paper discusses the characteristics and security issues including attacks and threats at different protocol layers of the VANETs architecture. Moreover, the paper also surveys different countermeasures.
PaperID
2022/EUSRM/2/2022/61248

Author Name
Ashutosh Kumar, Prabodh Khampariya
Year Of Publication
2022
Volume and Issue
Volume 14 Issue 2
Abstract
In wireless power transfer (WPT) systems, magnetic resonant coupling (MRC) is one of the most extensively utilised approaches. (This method is frequently used to increase distance while preserving power transfer efficiency) (PTE). Many studies have looked into novel technologies for extending the range of MRC while keeping PTE values high. The insertion of a resonator between the transmitter and reception coil is the most promising technology in MRC to yet. The resonator's implementation varies depending on design, size, and material type, but the results are still unsatisfactory.) PTE can be enhanced by using dielectric material resonators, which reduce ohmic loss, which is an issue with traditional resonators. This paper gives a broad review of the usage of dielectric material as a resonator in MRC WPT technology and its evolution. The basic operation of the MRC WPT is summarized, along with the most recent scientific advancements in the field of WPT related to dielectric material as
PaperID
2022/EUSRM/2/2022/61249