01338nas a2200181 4500008004100000245008700041210006900128260002100197520064800218100002100866700002300887700002700910700002200937700002300959700002400982700002401006856012601030 2005 eng d00aThe Broadband Status in the Region of Western Greece: Overview and Recommendations0 aBroadband Status in the Region of Western Greece Overview and Re c12 - 14 December3 aThis paper presents a study conducted in the Region of Western Greece, in order to propose an overall planning for the development of broadband infrastructure in the Region of Western Greece. The current broadband status in the region is being described, while the results of a survey on broadband usage and demand are being presented. The paper proposes some Recommendations that should be adopted in the region of Western Greece in order for the appropriate broadband infrastructures to be developed and adopted so as to contribute to economic growth and to tackle any possible cases of “digital gap” between the citizens of our country.1 aBouras, Christos1 aKapoulas, Vaggelis1 aTsiatsos, Thrasivoulos1 aAlexiou, Antonios1 aIgglesis, Vaggelis1 aParaskevas, Mixalis1 aPapagiannopoulos, J uhttps://telematics.upatras.gr/telematics/publications/broadband-status-region-western-greece-overview-and-recommendations01187nas a2200193 4500008004100000245007500041210006900116260001400185300001500199520050900214100002100723700002300744700002200767700002300789700002400812700001700836700002400853856011600877 2005 eng d00aDeployment of Broadband Infrastructure in the Region of Western Greece0 aDeployment of Broadband Infrastructure in the Region of Western c7 October a 588 - 5933 aThis paper presents the work that is taking place in the Region of Western Greece in order to develop state-of-the-art broadband infrastructure. The current status of broadband infrastructure in the region is being analyzed and the main principles on which the deployment of the networks will be based on is being described, by presenting the Metropolitan Area Networks and the Wireless access networks that will be developed. Two case studies of such municipal networks are also presented in this paper.1 aBouras, Christos1 aKapoulas, Vaggelis1 aAlexiou, Antonios1 aIgglesis, Vaggelis1 aParaskevas, Mixalis1 aScopoulis, I1 aPapagiannopoulos, J uhttps://telematics.upatras.gr/telematics/publications/deployment-broadband-infrastructure-region-western-greece01416nas a2200169 4500008004100000245007200041210006900113260002000182520081300202100002101015700002201036700001801058700002401076700001901100700001601119856011101135 2005 eng d00aQoS issues in the Research and Academic Networks: The case of GRnet0 aQoS issues in the Research and Academic Networks The case of GRn c23 - 28 October3 a
This paper describes the design and the implementation of QoS services in a high speed backbone network as well as a management tool for the service. The services were designed taking advantage of features provided by the MPLS technology and also by using the DiffServ architecture. The supported QoS services include the IP Premium that tries to provide zero packet loss as well as minimum delay and jitter and the Less Than Best Effort service. In addition we implemented a management tool for the service. The scope of this tool is to allow the users to manage their QoS requests (make a new one, edit, delete or view a request). Also the tool performs admission control and produces the necessary configuration that must be applied on the network in order to implement every service’s request.
1 aBouras, Christos1 aPrimpas, Dimitris1 aKaraliotas, A1 aParaskevas, Mixalis1 aOikonomakos, M1 aSintoris, C uhttps://telematics.upatras.gr/telematics/publications/qos-issues-research-and-academic-networks-case-grnet01301nas a2200133 4500008004100000245007200041210006900113260001500182300001500197520079200212100002101004700002401025856011801049 2003 eng d00aEducational Information Society in Greece: The Greek School Network0 aEducational Information Society in Greece The Greek School Netwo c3 - 6 June a 179 - 1863 aIn this paper, we present the Greek School Network. This project is financed by the Second and Third Community Support Framework of the European Union. Research and Academic Computer Technology Institute (CTI) has the responsibility for the design, coordination and the implementation of the project. The main object of the project is the implementation of a network infrastructure for the interconnection of school laboratories and educational administration offices and the provision of network services in a wide range. It forms a closed educational network, which is based on the Greek educational and research backbone network (GRNET). The Greek School Network statistics show that teachers and students have adopted the services of GSN in their school life and learning activities.1 aBouras, Christos1 aParaskevas, Mixalis uhttps://telematics.upatras.gr/telematics/publications/educational-information-society-greece-greek-school-network01110nas a2200145 4500008004100000245007900041210006900120300001100189520055700200100002100757700002000778700002400798700002200822856012000844 2003 eng d00aPolicies for Content Filtering in Educational Networks: The case of Greece0 aPolicies for Content Filtering in Educational Networks The case a 71-953 aThe Internet removes all barriers to sending and receiving information. An increasing number of nations connect their schools on the Internet as an acknowledgment of its importance in education. Despite its undeniable usefulness, it also has certain perils. This study specifies and evaluates these, finding the technologies that are currently available to address filtering issues and comparing them. We present our proposed solution for the Greek School Network, and illustrate to what extent our solution successfully addresses the issues discussed.1 aBouras, Christos1 aAvgoulea, Maria1 aParaskevas, Mixalis1 aStathakopoulos, G uhttps://telematics.upatras.gr/telematics/publications/policies-content-filtering-educational-networks-case-greece-002029nas a2200169 4500008004100000245002800041210002800069260001000097520155000107100002101657700001801678700002401696700001701720700002101737700001901758856008201777 2003 eng d00aWireless School Network0 aWireless School Network cApril3 aThe architecture of the wireless network consists of 3 main parts. The wireless infrastructure, the connection of the wireless island to the rest network and the interconnection between the neighboring schools a near one participating in the wireless network. The wireless connection supports Point-to-Multipoint technology [3] and uses the frequency band 2,4 Ghz to 2,4835 Ghz. The reserved bandwidth of this wireless LAN is order of magnitude 11 Mbps. In each school the bridge device is connected to a newly equipped Fast Ethernet switch interconnecting the internal schools network to the wireless network. Between the schools a fast Ethernet network is built using copper and Fiber optic cabling. The interconnection of the wireless network upstream to the backbone is achieved with the use of the link between the E.A.O and the local main distribution node of the EDUNET network. This link had to be upgrade because it will carry the traffic from the wireless network too. The selected solution was the VDSL technology by engaging the appropriate modems over a two-wire leased line between the E.A.O and the main node. We have a selected point in each school unit that wireless bridge and antenna will be installed. The wireless bridge must stand near to antenna because long cabling distances will produce noise in the transmission signal. The wireless bridge will be housed at waterproof cabinet, which offers all the necessary specifications for protection and electric feeding. The waterproof cabinet is installed at the antenna pylon.1 aBouras, Christos1 aKaraliotas, A1 aParaskevas, Mixalis1 aPapoutsis, V1 aNtokos, Christos1 aDrosopoulos, N uhttps://telematics.upatras.gr/telematics/publications/wireless-school-network01120nas a2200157 4500008004100000245008000041210006900121260001700190300001300207520053700220100002100757700002000778700002400798700002200822856011800844 2002 eng d00aPolicies for Content Filtering in Educational Networks : the Case of Greece0 aPolicies for Content Filtering in Educational Networks the Case c24 - 29 June a 57 - 623 aAn increasing number of nations connect their schools on the Internet as an acknowledgment to its extreme importance in the education area. Our study specifies the perils that arise from its use when the users are minors and evaluates the technologies that are currently available to address the filtering issues. The thoughts presented in this paper outline our proposed solution for the Greek School Network. By no means the thoughts that are presented here, apply for adults or people who pay to establish access to the Internet.1 aBouras, Christos1 aAvgoulea, Maria1 aParaskevas, Mixalis1 aStathakopoulos, G uhttps://telematics.upatras.gr/telematics/publications/policies-content-filtering-educational-networks-case-greece01794nas a2200169 4500008004100000245006300041210006200104260002000166300001300186520121800199100002101417700002401438700001801462700001901480700001901499856010601518 2000 eng d00aWinds of Aiolos: How connect the Greek Schools in Internet0 aWinds of Aiolos How connect the Greek Schools in Internet c19 - 20 October a 27 - 373 aIn this paper, we present the first Greek School Network, which is implemented by the project "Winds of Aiolos”. This project is subsumed in the framework of the European Community Action "Operational Program for the Education and Initial Vocational Training - Odysseia". Computer Technology Institute (CTI) has the responsibility for the design and the implementation of the project. On the basis of the influence of the networking technologies to the educational activities and according to the international experience, the usage of the network to the educational procedure acts as knowledgeable object, information source, learning tool and communication tool. The main object of the project is the implementation of a network infrastructure for the interconnection of school laboratories and educational administration offices and the provision of network services in a wide range. It forms a closed educational network, which is based on the Greek educational and research backbone network (GRNET). The Greek school network statistics show that the students prefer the Greek Domain. The educational units of the Greek School Network still act more as consumers than as creators in the information society.1 aBouras, Christos1 aParaskevas, Mixalis1 aGanos, Petros1 aAdamopoulos, N1 aKaraiskakis, D uhttps://telematics.upatras.gr/telematics/publications/winds-aiolos-how-connect-greek-schools-internet