Satellite Data Communications Link Requirements for a Proposed Flight Simulation System

The purpose of this study was to investigate the requirements necessary for data and voice communication via satellite, linking Embry-Riddle Aeronautical University (ERAU) and other flight training facilities. The proposed research was conducted following a descriptive method of collecting information, generating and analyzing data, and listing the results for the proposed link requirements. The current fiber-optic communications link at ERAU in Daytona Beach was presented to establish a general foundation of communications. Research was done into methods used by satellite common carriers for realistic data and calculations. A proposed data link to connect flight simulators at the ERAU Prescott campus with the air traffic control simulation facilities at the ERAU Daytona Beach campus was developed. Data link requirements based on this scenario were gathered and the final assessment was presented. A suggested method of implementing this proposal, including carrier service and equipment selection, was developed and further research into expanding this proposal into a network was suggested

Global Diffusion of the Internet - I: India: Is the Elephant Learning to Dance?

With his proclamation in 1998 that IT is India\u27s tomorrow , Prime Minister Vajpayee captured a vision of a 21st century India substantially different from that of the previous century, with its high levels of poverty, bloated bureaucracies, and protectionist policies. He envisioned the new India as a major IT power, fully integrated with the global economy, bringing about substantial domestic and international benefit. The Internet is a key to this vision, both as an enabler of technology-based change, and as an indicator of the vision\u27s fulfillment. Using an analytic framework developed by the authors and others, this study documents the growth of the Internet in India, from the pre-Internet networks through the boom of the Internet from 1998 to 2003. The Indian experience provides an example of how fundamental, focused changes in policy and legislation can unleash forces that accelerate Internet diffusion. Private sector initiatives greatly expanded the Internet infrastructure and Internet services market. At the same time, Government initiatives promoted the expansion of the Internet into parts of the country not well served by private ISPs. Poverty and limited telecommunications infrastructure currently limit the rate and extent of Internet expansion. However, time is an ally; the basic elements for continued growth of the Internet are largely in place

The Telecommunications Act of 1996: Predicting the Winners and Losers

The Telecommunications Act of 1996 has created substantial upheaval across the telecommunications landscape. On one hand, the 1996 Act created broad deregulatory and market entry opportunities for new market players; on the other hand, those implementing the Act have presumed that incumbent carriers will cooperate with new market entrants thereby accelerating the loss of market share, but gaining new market entry opportunities once competition begins to flourish. This Article analyzes the Various different factions that are likely to benefit from the Act, as well as those that are likely to suffer losses from telecommunications deregulation. The author concludes that the big future winners will be those who have exploited market entry opportunities or who successfully mitigate the financial consequences of market entry and heightened competition. The author also concludes that the future losers will be those enterprises that have exploited legal and regulatory barriers to competition, and have not adequately responded to changed circumstances and the prospects for new facilities-based and resale competition

Addressing Devices in Mobile Networks

Mobiilterminalide arengust tingitud vhenenud energiakulu, sisseehitatud sensorite kasutusvimalus, suurenenud ttlusjudlus ja mlumaht vimaldavad mobiilide laialdase kasutuse erinevates domeenides nagu mobiilne sotsiaalvrgustik, mobiilne pilvandmettlus ja Internet of Things (IoT). Selleks, et antud seadmeid oleks vimalik edukalt informatsiooni pakkumise ja ttlemise vahenditena kasutada, on vaja identitseerimiseks ja adresseerimiseks lesandele kohaseid vahendeid, mis vimaldaksid ligipsu seadmetele ja teenustele ka vljaspool mobiilsidevrku. Enamuse ajast, kui kasutajad kasutavad Internetiga hendamiseks mobiilivrke, paiknevad kasutajate seadmed tulemride ja vrguaadressi translaatorite (NAT ehk Network Address Translator) taga, mis takistavad otsese henduse loomist. Kasutajate hendamist mobiilsetes vrkudes on aastaid phjalikult uuritud ja selle tulemusena on leitud mitmeid lahendusi. IP-aadress, mis on levinuim adresseerimise mehhanism Internetis, on htlasi laialdaselt kasutusel mobiilivrkudes (3G/4G), kuid sellel on omad piirangud: ajutine kttesaadavus, piiratud kasutus ainult mobiilioperaatorite vrkudes ja vrguaadresside tlkimine (NAT). Nende piirangute krvaldamiseks pakume vlja mned teistsugused lhenemised: Session Initiation Protocol (SIP), Rendezvous serveri toel toimiv UDP/TCP Hole Punching ja UDP/TCP Relaying. Neidsaab kasutada erinevate mobiilsidevrkude tpide puhul. Kesolevas magistrits ksitletakse praktilist paigaldust, testide tulemusi ja iga lhenemise nrku ning tugevaid klgi.The emergence of mobile terminals with enhanced features like high processing power, more memory, inbuilt sensors, low power consumption, etc. have led to their extensive usage in different domains like mobile social networking, mobile cloud and Internet of Things (IoT). However, to successfully utilize these devices as information providing/processing entities, we need proper means of identification and addressing, so that the devices and their offered data/services are accessible also from outside the mobile network. But most of the times, when the peers connecting to the internet through cellular networks, peer devices locate behind the common components like firewalls and Network Address Translators (NATs) that prevent establishing direct connections. Setting up connection between peers in mobile networks has been examined extensively over the years and there are several solutions one can conceive. However, the most popular and widely used addressing mechanism for internet, IP address, is also being extensively used in mobile data networks (3G/4G) but ends up with barriers like their temporarily availability, known only within the mobile operators network, Network Address Translation (NAT) etc. To address such kind of limitations we proposed few different approaches such as Session Initiation Protocol (SIP), UDP/TCP hole punching with help from the Rendezvous server and UDP/TCP Relaying those can be applied to different types of mobile networks. In this thesis we discuss practical implementation, test results and evaluation of strengths and limitations of each approach