Biblio

Filters: Author is Tripathi, Vikas  [Clear All Filters]
2023-07-20
Lourens, Melanie, Naureen, Ayesha, Guha, Shouvik Kumar, Ahamad, Shahanawaj, Dharamvir, Tripathi, Vikas.  2022.  Circumstantial Discussion on Security and Privacy Protection using Cloud Computing Technology. 2022 2nd International Conference on Advance Computing and Innovative Technologies in Engineering (ICACITE). :1589—1593.
Cloud computing is becoming a demanding technology due to its flexibility, sensibility and remote accessibility. Apart from these applications of cloud computing, privacy and security are two terms that pose a circumstantial discussion. Various authors have argued on this topic that cloud computing is more secure than other data sharing and storing methods. The conventional data storing system is a computer system or smartphone storage. The argument debate also states that cloud computing is vulnerable to enormous types of attacks which make it a more concerning technology. This current study has also tried to draw the circumstantial and controversial debate on the security and privacy system of cloud computing. Primary research has been conducted with 65 cloud computing experts to understand whether a cloud computing security technique is highly secure or not. An online survey has been conducted with them where they provided their opinions based on the security and privacy system of cloud computing. Findings showed that no particular technology is available which can provide maximum security. Although the respondents agreed that blockchain is a more secure cloud computing technology; however, the blockchain also has certain threats which need to be addressed. The study has found essential encryption systems that can be integrated to strengthen security; however, continuous improvement is required.
2023-01-20
Kumar, Santosh, Kumar, N M G, Geetha, B.T., Sangeetha, M., Chakravarthi, M. Kalyan, Tripathi, Vikas.  2022.  Cluster, Cloud, Grid Computing via Network Communication Using Control Communication and Monitoring of Smart Grid. 2022 2nd International Conference on Advance Computing and Innovative Technologies in Engineering (ICACITE). :1220—1224.
Traditional power consumption management systems are not showing enough reliability and thus, smart grid technology has been introduced to reduce the excess power wastages. In the context of smart grid systems, network communication is another term that is used for developing the network between the users and the load profiles. Cloud computing and clustering are also executed for efficient power management. Based on the facts, this research is going to identify wireless network communication systems to monitor and control smart grid power consumption. Primary survey-based research has been carried out with 62 individuals who worked in the smart grid system, tracked, monitored and controlled the power consumptions using WSN technology. The survey was conducted online where the respondents provided their opinions via a google survey form. The responses were collected and analyzed on Microsoft Excel. Results show that hybrid commuting of cloud and edge computing technology is more advantageous than individual computing. Respondents agreed that deep learning techniques will be more beneficial to analyze load profiles than machine learning techniques. Lastly, the study has explained the advantages and challenges of using smart grid network communication systems. Apart from the findings from primary research, secondary journal articles were also observed to emphasize the research findings.
2023-07-14
Susan, V Shyamala, Vivek, V., Muthusamy, P., Priyanshu, Deepa, Singh, Arjun, Tripathi, Vikas.  2022.  More Efficient Data Security by DEVELOINV AES Hybrid Algorithm. 2022 International Interdisciplinary Humanitarian Conference for Sustainability (IIHC). :1550–1554.
The development of cloud apps enables people to exchange resources, goods, and expertise online with other clients. The material is more vulnerable to numerous security dangers from outsiders due to the fact that millions of users exchange data through the same system. How to maintain the security of this data is now the main concern. The current data protection system functions best when it places a greater priority on safeguarding data maintained in online storage than it does on cybersecurity during transportation. The data becomes open to intrusion attacks while being transferred. Additionally, the present craze states that an outside auditor may view data as it is being transmitted. Additionally, by allowing the hacker to assume a third-person identity while obtaining the information, this makes the data more susceptible to exploitation. The proposed system focuses on using encryption to safeguard information flow since cybersecurity is seen as a major issue. The approach also takes into account the fourth auditing issue, which is that under the recommended manner, the inspector is not allowed to see the user information. Tests have shown that the recommended technique improves security overall by making it harder for hackers to decode the supplied data.
2023-07-21
Singh, Kiran Deep, Singh, Prabhdeep, Tripathi, Vikas, Khullar, Vikas.  2022.  A Novel and Secure Framework to Detect Unauthorized Access to an Optical Fog-Cloud Computing Network. 2022 Seventh International Conference on Parallel, Distributed and Grid Computing (PDGC). :618—622.
Securing optical edge devices across an optical network is a critical challenge for the technological capabilities of fog/cloud computing. Locating and blocking rogue devices from transmitting data frames in an optical network is a significant security problem due to their widespread distribution over the optical fog cloud. A malicious actor might simply compromise such a device and execute assaults that degrade the optical channel’s Quality. In this study, we advocate an innovative framework for the use of an optical network to facilitate cloud and fog computing in a safe environment. This framework is sustainable and able to detect hostile equipment in optical fog and cloud and redirect it to a honeypot, where the assault may be halted and analyzed. To do this, it employs a model based on a two-stage hidden Markov, a fog manager based on an intrusion detection system, and an optical virtual honeypot. An internal assault is mitigated by simulated testing of the suggested system. The findings validate the adaptable and affordable access for cloud computing and optical fog.