Maximizing Cloud Security: Empirical Evaluation of an Efficient Identity oriented Signature Verification Scheme for Wireless Networks
C. Anitha, V. Praveena, V. Samuthira Pandi, S. Naresh Kumar, B. Shiva, A. Muniyappan
Abstract
A reliable and effective way to aggregate large amounts of data is very desirable in the area of wireless networks that are helped by cloud computing. Target tracking and environmental management are only two examples of the many real-world uses of wireless sensor networks. The cloud does, however, make data vulnerable to a variety of threats, including data eavesdropping and data contamination. Elevated Identity based Signature Verification (EISV) is an identity-based aggregate signature verification scheme that is cross-validated with the conventional Attribute based Encryption (ABE) security scheme to evaluate the efficiency of the proposed scheme for data integrity security in wireless sensor networks. This technique will reduce storage and bandwidth costs in wireless sensor networks while keeping data private, according to the benefits of aggregate signatures. With online signature methods, the signer can generate an electronic signature using a pre-calculated digital signature when a document is submitted. Applications involving wireless sensor networks with limited resources benefit greatly from such approaches. Our suggested technique, Elevated Identity based Signature Verification, has been implemented, and the results show that it is practical and feasible to utilize in a cloud based wireless sensor network configuration.