Notice Board: Call for Paper Vol. 8 Issue 10      Submission Start Date: September 30, 2021      Acceptence Notification Start: October 12, 2021      Submission End: October 18, 2021      Final MenuScript Due: October 22, 2021      Publication Date: October 31, 2021






Volume 4 Issue 8

Author Name
Ashutosh Daharwal, Niharika Sahu
Year Of Publication
2017
Volume and Issue
Volume 4 Issue 8
Abstract
The load balancing is important area of cloud computing environment. The process of balancing balanced the limited number of resource and unlimited number of job arrival. The process of balancing of workload improved the performance of cloud environment. The process of load balancing undergone in two different scenario static and dynamic. The static balancing technique used the process of CPU scheduling and some common data searching technique. The dynamic load balancing adds some extra process and increase the cost of balancer. Now a day the dynamic load balancing technique used heuristic based function. The heuristic based function swarm intelligence for the purpose of balancing. The efficiency and proper utilization of cloud environments depends on the balancing of load. The limited number of resource and on demand access of resource creates the situation of overloading. The proposed model simulated in cloudsim simulator and used various parameters such as data center, number of use
PaperID
2017/08/IJMERT/8/301

Author Name
Alok Tripathi, Surendra Vishwakarma
Year Of Publication
2017
Volume and Issue
Volume 4 Issue 8
Abstract
Smart devices play major role in electronic payments transaction. The mobile payments reduce the cost of traditional payments transaction. The payments of mobile devices faced a problem of security threats. The process of mobile payments system used the internet and communication medium. The internet and communication medium compromised with security attacks. The security attacks create some finical frauds and many illegal behaviors over the payments. In this paper present the review of mobile payments system using secured communication and transaction system. The secured mobile transaction used the QR code and many asymmetric cryptography techniques for the prevention of security threats. The capabilities and limitations of mobile devices introduce some challenges for designing effective and efficient authentication mechanisms. Some of the most important differences between authentication requirements and principles in mobile devices.
PaperID
2017/08/IJMERT/8/304

Author Name
Hardesh Kumar Chaturvedi, Chhtrpal Temre, Amit Kumar
Year Of Publication
2017
Volume and Issue
Volume 4 Issue 8
Abstract
In a computational fluid dynamic, trails have been conducted on the heat transfer and nusselt no. for a helical coil tube heat exchanger. In the CFD investigation, it was assured that the two types of nanofluids were considered with water also to determine overall heat transfer rate and nusselt no., for heat transfer. This investigation was carried out on a different mass flow rate ranging between 0.00418 to 0.0167 Kg/s. When the observations were compared between water and other nanofluids it was concluded that: The CuO as a nano fluid could not transfer the desired heat and so it was not practically prepared and the nano fluid as Fe2O3 is efficient enough to transfer heat but water has a huge complexity in design, whereas the Fe2O3 as a nano fluid have overcome this problem
PaperID
2017/08/IJMERT/305

Author Name
Hardesh Kumar Chaturvedi, Chhtrpal Temre, Amit Kumar
Year Of Publication
2017
Volume and Issue
Volume 4 Issue 8
Abstract
Heat transfer fluids have many industrial and civil applications, including electronic cooling, transport, energy and air-conditioning system. Traditional fluids such as water, oil and glycols have poor thermal performance due to their low thermal conductivities [1-2]. Research and development has been carried out to improve the thermal performance of fluid. In a computational fluid dynamic, trails have been conducted on the heat transfer and nusselt no. for a helical coil tube heat exchanger. In the CFD investigation, it was assured that the two types of nanofluids were considered with water also to determine overall heat transfer rate and nusselt no., for heat transfer. This investigation was carried out on a different mass flow rate ranging between 0.00418 to 0.0167 Kg/s. When the observations were compared between water and other nanofluids it was concluded that: The CuO as a nano fluid could not transfer the desired heat and so it was not practically prepared and the nano fluid as F
PaperID
2017/08/IJMERT/306



Notice Board :

Call for Paper
Vol. 8 Issue 10

Submission Start Date:
September 30, 2021

Acceptence Notification Start:
October 12, 2021

Submission End:
October 18, 2021

Final MenuScript Due:
October 22, 2021

Publication Date:
October 31, 2021