Performance comparison of IP-networked storage

Internet security problems remain a major challenge with many security concerns such as Internet worms, spam, and phishing attacks. Botnets, well-organized distributed network attacks, consist of a large number of bots that generate huge volumes of spam or launch Distributed Denial of Service (DDoS) attacks on victim hosts. New emerging botnet attacks degrade the status of Internet security further. To address these problems, a practical collaborative network security management system is proposed with an effective collaborative Unified Threat Management (UTM) and traffic probers. A distributed security overlay network with a centralized security center leverages a peer-to-peer communication protocol used in the UTMs collaborative module and connects them virtually to exchange network events and security rules. Security functions for the UTM are retrofitted to share security rules. In this paper, we propose a design and implementation of a cloud-based security center for network security forensic analysis. We propose using cloud storage to keep collected traffic data and then processing it with cloud computing platforms to find the malicious attacks. As a practical example, phishing attack forensic analysis is presented and the required computing and storage resources are evaluated based on real trace data. The cloud-based security center can instruct each collaborative UTM and prober to collect events and raw traffic, send them back for deep analysis, and generate new security rules. These new security rules are enforced by collaborative UTM and the feedback events of such rules are returned to the security center. By this type of close-loop control, the collaborative network security management system can identify and address new distributed attacks more quickly and effectively.

Date of Publication: Feb. 2013

Page(s):

40 - 50

Date of Current Version :

07 February 2013

Issue Date :

Feb. 2013

Sponsored by :

Tsinghua University Press (TUP)

 Full Text as PDF

Cloud computing-based forensic analysis for collaborative network security management system

Internet security problems remain a major challenge with many security concerns such as Internet worms, spam, and phishing attacks. Botnets, well-organized distributed network attacks, consist of a large number of bots that generate huge volumes of spam or launch Distributed Denial of Service (DDoS) attacks on victim hosts. New emerging botnet attacks degrade the status of Internet security further. To address these problems, a practical collaborative network security management system is proposed with an effective collaborative Unified Threat Management (UTM) and traffic probers. A distributed security overlay network with a centralized security center leverages a peer-to-peer communication protocol used in the UTMs collaborative module and connects them virtually to exchange network events and security rules. Security functions for the UTM are retrofitted to share security rules. In this paper, we propose a design and implementation of a cloud-based security center for network security forensic analysis. We propose using cloud storage to keep collected traffic data and then processing it with cloud computing platforms to find the malicious attacks. As a practical example, phishing attack forensic analysis is presented and the required computing and storage resources are evaluated based on real trace data. The cloud-based security center can instruct each collaborative UTM and prober to collect events and raw traffic, send them back for deep analysis, and generate new security rules. These new security rules are enforced by collaborative UTM and the feedback events of such rules are returned to the security center. By this type of close-loop control, the collaborative network security management system can identify and address new distributed attacks more quickly and effectively.

Date of Publication: Feb. 2013

Page(s):

40 - 50

Date of Current Version :

07 February 2013

Issue Date :

Feb. 2013

Sponsored by :

Tsinghua University Press (TUP)

 Full Text as PDF

Ecological Home Network: An Overview

A home network is one of the next-generation information and communication technology (ICT)-centered applications, and this paper discusses the current state of relating technologies and various aspects necessary for better home network realization. It is necessary to discuss the technologies for a good home network, but it is also important to consider this from the different aspects other than technologies. Cost, power consumption, maintainability, and relevant data volume are such view points, and they support better ecological home network. This paper first discusses the technology components which support realization of a home network. They are network technologies, varieties of devices, software-based systems and standards, and home gateway, the key component of a better home network. Then, the author shows several considerations from the ecological viewpoints such as cost saving, energy saving, human load saving, and data volume saving. The real technology and business for a home network is still in an evolving stage, and it is necessary to discuss the implementation issues for a home network. Home gateway is an important component for managing a home network, and the author proposes a home gateway architecture suitable for better implementation of a home network as a whole.

Date of Publication: Nov. 2013

Page(s):

2428 - 2435

ISSN :

0018-9219

INSPEC Accession Number:

13843221

Date of Publication :

05 September 2013

Date of Current Version :

16 October 2013

Issue Date :

Nov. 2013

Sponsored by :

IEEE

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IEEE: WeFiLab: A Web-Based WiFi Laboratory Platform for Wireless Networking Education

Remote access to physical laboratories for education has received significant attention from both researchers and educators as it provides access at reduced cost in sharing manner of real devices and gives students practical training. With the rapid growing of wireless technologies, it has become an essential of learning to have the hand-on experience on wireless networking for the proliferated number of students in engineering. Some of current implementations for wireless networking are either using simulations, which lose the reality, or too complicated for undergraduate students to control experiments. In this paper, we present a practical online laboratory platform, Web-based WiFiLaboratory (WeFiLab). WeFiLab mainly focuses on providing students hand-on experience of doing experiments on real devices through webpage anytime anywhere. It uses the structure of two-level operations, which facilities increasing the scale of wireless devices and allows WeFiLab to be extended to more complicated operations. The schedule schemes of WeFiLab let more students share and make efficient use of wireless devices. A prototype of WeFiLab has been implemented and used successfully as complements for an undergraduate course for two years in a university. In total, 315 computer science students attended the evaluation.

Date of Publication: Oct.-Dec. 2012

Page(s):

291 - 303

ISSN :

1939-1382

INSPEC Accession Number:

13167371

Date of Publication :

19 March 2012

Date of Current Version :

05 December 2012

Issue Date :

Oct.-Dec. 2012

                   

Full Text as PDF

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