High definition systems in Japan

The successful implementation of a strategy to produce high-definition systems within the Japanese economy will favorably affect the fundamental competitiveness of Japan relative to the rest of the world. The development of an infrastructure necessary to support high-definition products and systems in that country involves major commitments of engineering resources, plants and equipment, educational programs and funding. The results of these efforts appear to affect virtually every aspect of the Japanese industrial complex. The results of assessments of the current progress of Japan toward the development of high-definition products and systems are presented. The assessments are based on the findings of a panel of U.S. experts made up of individuals from U.S. academia and industry, and derived from a study of the Japanese literature combined with visits to the primary relevant industrial laboratories and development agencies in Japan. Specific coverage includes an evaluation of progress in R&D for high-definition television (HDTV) displays that are evolving in Japan; high-definition standards and equipment development; Japanese intentions for the use of HDTV; economic evaluation of Japan's public policy initiatives in support of high-definition systems; management analysis of Japan's strategy of leverage with respect to high-definition products and systems

Applications of satellite technology to broadband ISDN networks

Two satellite architectures for delivering broadband integrated services digital network (B-ISDN) service are evaluated. The first is assumed integral to an existing terrestrial network, and provides complementary services such as interconnects to remote nodes as well as high-rate multicast and broadcast service. The interconnects are at a 155 Mbs rate and are shown as being met with a nonregenerative multibeam satellite having 10-1.5 degree spots. The second satellite architecture focuses on providing private B-ISDN networks as well as acting as a gateway to the public network. This is conceived as being provided by a regenerative multibeam satellite with on-board ATM (asynchronous transfer mode) processing payload. With up to 800 Mbs offered, higher satellite EIRP is required. This is accomplished with 12-0.4 degree hopping beams, covering a total of 110 dwell positions. It is estimated the space segment capital cost for architecture one would be about $190M whereas the second architecture would be about$250M. The net user cost is given for a variety of scenarios, but the cost for 155 Mbs services is shown to be about $15-22/minute for 25 percent system utilization

Demodulator techniques in satellite communication systems for direct broadcast systems

This thesis is concerned with the FM demodulator techniques used in terrestrial TV receiver designs for Direct Broadcast Systems (DBS) from satellites. The various MAC/Packet schemes intended for DBS applications are described and the international standards that apply to them considered, with particular emphasis on the D2-MAC system. Noise in FM systems is discussed and a suitable threshold noise model is chosen for use in DBS TV demodulator systems. The characteristics of the various types of noise effects are considered in terms of their effect upon the TV picture. The threshold performance of a conventional FM demodulator for differing types of modulation is reviewed and it is shown how the threshold characteristic depends upon the nature of the modulation. The literature review carried out represents a significant component of the thesis and combines material from patent literature with more conventional source materials from professional journals, conferences, textbooks, etc. Some ten existing demodulator concepts that exhibit threshold extension characteristics are examined, and where relevant their potential performance in D2-MAC format systems is assessed. The demodulator characteristics that limit their performance in TV systems are identified. It is concluded that designing a threshold extension demodulator, with reliable operation, for all picture contents and for a wide range of input carrier-to-noise ratios, is a formidable task using existing design techniques. On the basis of this examination an adaptive threshold extension demodulator concept is proposed, that utilises information contained within the signal structure to achieve an improved performance over a wide range of input carrier-to-noise ratios and picture content. It is shown how the relevant signal structures may be derived from conventional (PAL, SECAM and NTSC), MAC format and all-digital television systems. Illustrations are given that show how the adaptive demodulator concept can be applied to certain existing threshold extension demodulators, enhancing their performance for television picture reception. Future trends in all-digital DBS TV systems intended ultimately for DBS applications are briefly discussed together with their demodlilation requirements

DIGITAL VIDEO BROADCASTING VIA SATELLITE (DVB-S)

This paper provides a brief introduction to the DVB-S system based on [EN-300-421]. The DVB-S system provides directto-home (DTH) services for consumer integrated receiver decoders (IRD), as well as collective antenna systems (satellitemaster antenna television SMATV) and cable television head-end stations. The overview covers the physical layer thatcomprises adaptation, framing, coding, interleaving and modulation, and discusses error performance requirements toachieve quality of service (QoS) targets.Keywords: system provides direct-to-homey, satellite master antenna television and achieves quality of service

TV Ghost Cancellation System Using Switched Capacitor Circuits

In the TV reception, picture quality has been one of the primary criterion in its design. The presence of ghost signals, which are due to reflections of TV signal from high rise building, towers, mountains, etc., is one of the major causes of distortion and is Iiot avoided at the receiver end. The ghost signals are in fact time delayed versions of tht:: actual transmitted signals at the receiver and have many adverse effects on picture quality due to partial cancellation of main signal. The perceptibility of the ghost signal is strongly subj ective and is a function of picture content and quality. Thus it is essential to filter the ghost signals for better reception. In this thesis we present the design of a television ghost cancellation system using switched capacitor circuits. Ghost cancellation is a nullifying operation and allows one to reduce its effect on the picture quality as much as possible. In this thesis two-stage switched capacitor (SC) transversal filter has been used for reduction of distortion. The system has been able to suppress ghosts with delays ranging from 0.1 µs to 20 µs with ghost suppression threshold at 1 % amplitude. The algorithm uses a special training signal to determine the ghost's characteristics. For a single ghost once the ghost's parameters have been determined, the transversal filter delays the incoming signal by td (the time delay of ghost) and multiplies it by a factor - G (G being the gain of ghost). The result signal is added to original signal. We obtain an output which gives no output due to original ghost but adds up another ghost. The process is repeated until the ghost's amplitude is within acceptable limits. In this thesis we have simulated the system at the block diagram level using MATLAB and at component level using PSpice. The results of the simulation are in close conformity with the theoretical value. This suggested circuit can be fabricated using the MOS technology allowing the manufacturer to provide a better quality in TV reception

An IR-UWB photonic distribution system

Experimental results are presented for a novel distribution system for an impulse radio ultra-wideband (UWB) radio signals employing a gain-switched laser. The pulse position modulated short optical pulses with a bit rate of 1.25 Gb/s are transmitted over fiber to a remote antenna unit, where the signal is converted to the electrical domain and undergoes spectral shaping to remove unwanted components according to UWB requirements. An experimental radio terminal has also been constructed to enable bit-error-rate measurements to be carried out. These experiments show that the optical distribution system will be capable of supporting the radio part of the system