Model-Controller Interfacing using Struts-Based Web Application

Model-Controller Interfacing using Struts-Based Web Application

Abstract :-
StrutsHib IDE is an IDE for interfacing the model and controller of a MVC architecture based applications. It is developed using Java-based technologies such as the Struts framework, Hibernate and jQuery. The StrutsHib IDE is a web application. This project implements the part of StrutsHib IDE that makes it easy to create model and controller components. Moreover, it automates the process of database creation for web applications which means the user does not have to be a database expert when dealing with databases. Finally, StrutsHib IDE takes all the advantages of a web-based application and provides lot of flexibility to the users.

Author:- Deepti Bhardwaj

Source:-San Jose State University

Advanced Honeypot Architecture for Network Threats Quantification

Advanced Honeypot Architecture for Network Threats Quantification

Abstract :-
Honeypots were introduced to monitor unused IP spaces to learn about attackers. The advantage of honeypots over other monitoring solutions is to collect only suspicious activity. However, current honeypots are expensive to deploy and complex to administrate especially in the context of large organization networks. This study addresses the challenge of improving the scalability and flexibility of honeypots by introducing a novel hybrid honeypot architecture. This architecture is based on a Decision Engine and a Redirection Engine that automatically filter attacks and save resources by reducing the size of the attack data collection and allow researchers to actively specify the type of attack they want to collect. For a better integration into the organization network, this architecture was combined with network flows collected at the border of the production network. Continue reading Advanced Honeypot Architecture for Network Threats Quantification

3D Integration, Temperature Effects, and Modeling

3D Integration, Temperature Effects, and Modeling

Abstract :-
Practical limits to device scaling are threatening the growth of integrated circuit (IC) technology. A breakthrough architecture is needed in order to realize the increased device density and circuit functionality that future high performance ICs demand. 3D integration is being considered as this breakthrough architecture. In this thesis, the limits to scaling are noted and the feasibility of overcoming these limits using 3D integration is presented. Continue reading 3D Integration, Temperature Effects, and Modeling