During the recent coronavirus disease 2019 pandemic, the ability to be a self-regulated learner has become more important with the introduction of online classes. These changes mean that students are now required to review their learning strategies and selfmanage their learning time. We have developed a new "ePortfolio system" with the aim of building a system that fosters self-regulated learners and can visualize students' learning outcomes. This paper introduces the concepts of our ePortfolio system as a Learning Management System ePortfolio building system that will provide enhanced functions and become a university-wide initiative.
SUMMARYWe have developed an automatic network configuration technology for flexible and robust network construction. In this paper, we propose a two-or-more-level hierarchical link-state routing protocol in Hierarchical QoS Link Information Protocol (HQLIP). The hierarchical routing easily scales up the network by combining and stacking configured networks. HQLIP is designed not to recompute shortest-path trees from topology information in order to achieve a high-speed convergence of forwarding information base (FIB), especially when renumbering occurs in the network. In addition, we propose a fixed-midfix renumbering (FMR) method. FMR enables an even faster convergence when HQLIP is synchronized with Hierarchical/Automatic Number Allocation (HANA). Experiments demonstrate that HQLIP incorporating FMR achieves the convergence time within one second in the network where 22 switches and 800 server terminals are placed, and is superior to Open Shortest Path First (OSPF) in terms of a convergence time. This shows that a combination of HQLIP and HANA performs stable renumbering in link-state routing protocol networks.
Computer security has been getting more attention because a computer security incident may cause great damage on an organization. A quick and correct response against an incident is then important. One of the first possible responses is then locating and isolating a suspicious host. This isolation typically requires a manual operation that may cause a mistake or long delay. In order to solve these issues, this paper proposes a novel system to locate and isolate a suspicious host on an incident response adopting the Software Defined Network (SDN) approach. This SDN approach allows the proposed system to locate and isolate a suspicious host on-demand in a network that comprises different switches and routers of different makers. The proposed system then requires no host authentication configured, no IP address allocation/assignment database, no network topology map and no switch port list in advance. The proposed system, therefore, can reduce human manual operations. This paper then presents that human manual operations actually induce longer delays, more than 3 minutes on average, and also cause mistakes. This paper also presents that the proposed system can locate and isolate a suspicious host within 10 seconds right after an IP address of a suspicious host is given.
Abstract:In order to solve scalability problems of routing and addressing architectures of the current Internet, Locator/ID Separation Protocol (LISP) has been proposed. LISP requires mapping resolutions between a locator and an ID and such resolutions may impact on communications. In this paper, we empirically show its impact on initiating end-to-end bidirectional communications based upon actual LISP environment. We then discuss solutions to overcome impacts and imply that Data Probe may be a solution by applying it only to DNS queries, responses, TCP SYN and SYN+ACK.
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