332 research outputs found
CellTV - on the Benefit of TV Distribution over Cellular Networks A Case Study
As mobile IP-access is becoming the dominant technology for providing
wireless services, the demand for more spectrum for this type of access is
increasing rapidly. Since IP-access can be used for all types of services,
instead of a plethora of dedicated, single-service systems, there is a
significant potential to make spectrum use more efficient. In this paper, the
feasibility and potential benefit of replacing the current terrestrial UHF TV
broadcasting system with a mobile, cellular data (IP-) network is analyzed. In
the cellular network, TV content would be provided as {one} of the services,
here referred to as CellTV. In the investigation we consider typical Swedish
rural and urban environments. We use different models for TV viewing patterns
and cellular technologies as expected in the year 2020. Results of the
quantitative analysis indicate that CellTV distribution can be beneficial if
the TV consumption trend goes towards more specialized programming, more local
contents, and more on-demand requests. Mobile cellular systems, with their
flexible unicast capabilities, will be an ideal platform to provide these
services. However, the results also demonstrate that CellTV is not a
spectrum-efficient replacement for terrestrial TV broadcasting with current
viewing patterns (i.e. a moderate number of channels with each a high numbers
of viewers). In this case, it is doubtful whether the expected spectrum savings
can motivate the necessary investments in upgrading cellular sites and
developing advanced TV receiver required for the success of CellTV
distribution.Comment: To appear on Trans. Broadcasting 201
Integration of TV White Space and Femtocell Networks.
PhDFemtocell is an effective approach to increase system capacity in cellular networks.
Since traditional Femtocells use the same frequency band as the cellular network,
cross-tier and co-tier interference exist in such Femtocell networks and have a major
impact on deteriorating the system throughput. In order to tackle these challenges,
interference mitigation has drawn attentions from both academia and industry. TV
White Space (TVWS) is a newly opened portion of spectrum, which comes from the
spare spectrum created by the transition from analogue TV to digital TV. It can be
utilized by using cognitive radio technology according to the policies from
telecommunications regulators. This thesis considers using locally available TVWS to
reduce the interference in Femtocell networks. The objective of this research is to
mitigate the downlink cross-tier and co-tier interference in different Femtocell
deployment scenarios, and increase the throughput of the overall system.
A Geo-location database model to obtain locally available TVWS information in UK
is developed in this research. The database is designed using power control method
to calculate available TVWS channels and maximum allowable transmit power based
on digital TV transmitter information in UK and regulations on unlicensed use of
TVWS. The proposed database model is firstly combined with a grid-based resource
allocation scheme and investigated in a simplified Femtocell network to demonstrate
the gains of using TVWS in Femtocell networks.
Furthermore, two Femtocell deployment scenarios are studied in this research. In the
suburban Femtocell deployment scenario, a novel system architecture that consists of
the Geo-location database and a resource allocation scheme using TVWS is proposed
to mitigate cross-tier interference between Macrocell and Femtocells. In the dense
Femtocell deployment scenario, a power efficient resource allocation scheme is
proposed to maximize the throughput of Femtocells while limiting the co-tier
interference among Femtocells. The optimization problem in the power efficient
scheme is solved by using sequential quadratic programming method. The
simulation results show that the proposed schemes can effectively mitigate the
interference in Femtocell networks in practical deployment scenarios
Cooperating broadcast and cellular conditional access system for digital television
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University.The lack of interoperability between Pay‐TV service providers and a horizontally integrated business transaction model have compromised the competition in the Pay‐TV market. In addition, the lack of interactivity with customers has resulted in high churn rate and improper security measures have contributed into considerable business loss. These issues are the main cause of high operational costs and subscription fees in the Pay‐TV systems.
This paper presents a novel end‐to‐end system architecture for Pay‐TV systems cooperating mobile and broadcasting technologies. It provides a cost‐effective, scalable, dynamic and secure access control mechanism supporting converged services and new business opportunities in Pay‐TV systems. It enhances interactivity, security and potentially reduces customer attrition and operational cost. In this platform, service providers can effectively interact with their customers, personalise their services and adopt appropriate security measures. It breaks up the rigid relationship between a viewer and set‐top box as imposed by traditional conditional access systems, thus, a viewer can fully enjoy his entitlements via an arbitrary set‐top box.
Having thoroughly considered state‐of‐the‐art technologies currently being used across the world, the thesis highlights novel use cases and presents the full design and implementation aspects of the system. The design section is enriched by providing possible security structures supported thereby. A business collaboration structure is proposed, followed by a reference model for implementing the system. Finally, the security architectures are analysed to propose the best architecture on the basis of security, complexity and set‐top box production cost criteria
TECHNOLOGY, BUSINESS, & POLICY IMPLICATIONS AS THE COMMUNICATIONS ECOSYSTEM MOVES FROM POTS TO PANS
Page 47-9
Feasibility of LTE 700 MHz Digital Dividend for Broadband Development Acceleration in Rural Areas
The need of broadband services to reduce digital divide in rural areas had increased in the recent years. The government of the Republic Indonesia shared similar intention and had set guidance of ICT development in its "economic master plan" and "medium term development plan". This paper addressed feasibility and suitability of its implementation in Indonesia, by conducting assessment of possible solutions. Using mixed method, the study was started with qualitative approach to identify possible options, conducted benchmarking and case study analysis to narrow down the options and finally conducted quantitative calculation for the two remaining options and measure performance of the solutions. The results of analysis concluded that early implementation of LTE in 700 MHz Digital Dividend would be feasible in certain geographical areas to fasten the broadband plan development in Indonesia
Spectrum Policy and Management
This project provides an examination of the FCC’s policies towards spectrum reallocation. The project examines the National Broadband Plan and how the FCC has approached the goals described within it. The demand for broadband communications has increased dramatically in recent years and has resulted in a predicted spectrum deficit in the near future. In addition to a number of spectrum auctions and their winners the project examines how the redistribution of spectrum impacts the broadband community. The project also provides an examination of spectrum reallocation and policy in other countries, to provide a broader view of spectrum policy. Finally the project examines new spectrum technologies and spectrum usage policies to further examine how the US’s spectrum policies should evolve
A Platform for Large-Scale Regional IoT Networks
The Internet of Things (IoT) promises to allow everyday objects to connect to the Internet and interact with users and other machines ubiquitously. Central to this vision is a pervasive wireless communication network connecting each end device. For individual IoT applications it is costly to deploy a dedicated network or connect to an existing cellular network, especially as these applications do not fully utilize the bandwidth provided by modern high speeds networks (e.g., WiFi, 4G LTE). On the other hand, decades of wireless research have produced numerous low-cost chip radios and effective networking stacks designed for short-range communication in the Industrial, Scientific and Medical Radio band (ISM band). In this thesis, we consider adapting this existing technology to construct shared regional low-powered networks using commercially available ISM band transceivers. To maximize network coverage, we focus on low-power wide-area wireless communication which enables links to reliably cover 10 km or more depending on terrain transmitting up to 1 Watt Equivalent Isotropically Radiated Power (EIRP). With potentially thousands of energy constrained IoT devices vying for extremely limited bandwidth, minimizing network coordination overhead and maximizing channel utility is essential. To address these challenges, we propose a distributed queueing (DQ) based MAC protocol, DQ-N. DQ-N exhibits excellent performance, supporting thousands of IoT devices from a single base station. In the future, these networks could accommodate a heterogeneous set of IoT applications, simplifying the IoT application development cycle, reducing total system cost, improving application reliability, and greatly enhancing the user experience
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