76 research outputs found

    Some fundamental considerations concerning noise reduction and range in radar and communication

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    "December 15, 1947." "Presented at the National Electronics Conference, Chicago, Illinois, November, 1947."Includes bibliographical references.Army Signal Corps Contract No. W-36-039 sc-32037.Stanford Goldman

    A space communication study Final report, 15 Sep. 1967 - 15 Sep. 1968

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    Transmitting and receiving analog and digital signals through noisy media - space communications stud

    Multiple-Access Techniques for Communication Satellites - Analog Modulation, Frequency- Division Multiplexing, and Related Signal Processing Methods

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    Analog modulation, frequency-division multiplexing and signal processing for multiple-access satellite communicatio

    Phase And Amplitude Modulated Ofdm For Dispersion Managed Wdm Systems

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    Amplitude and phase modulated optical OFDM (Orthogonal Frequency Division Multiplexing) are analyzed in a 50GBit/s single channel and 40GBit/s 5 channel 512 subcarrier non-ideal dispersion-compensated fiber optic communication systems. PM-OFDM is investigated as an alternative to AM-OFDM to alleviate the problem associated with amplitude-modulated signals in a nonlinear medium. The inherent dispersion compensation capability in OFDM (using a cyclic prefix) allows transmission over a link whose dispersion map is not exactly known. OFDM also mitigates the effects of dispersion slope in wavelength-division multiplexed (WDM) systems. Moreover, the overall dispersion throughout the transmission link may vary due to environmental effects and aging. OFDM is inherently tolerant to over- or under-compensation and dispersion slope mismatch. OFDM transmission over dispersive, non-dispersion managed fiber links using OFDM requires an overhead in excess of the maximum accumulated dispersion. Existing WDM systems usually employ periodic dispersion management. OFDM in these systems requires a smaller overhead. It is, however, more susceptible to nonlinearity due to the coherent beating of subcarriers after each dispersion-compensated span. The large variation in intensity associated with amplitude-modulated OFDM makes this modulation format more susceptible to nonlinear effects in fiber compared to phase-modulated signals. This holds true unless dispersion and EDFA noise lead to amplitude variations strong enough for PM-OFDM to be degraded by nonlinear effects as well. In conclusion OFDM is beneficial for non-ideal dispersion managed systems. PM-OFDM can further improve the performance

    AM-baseband telemetry systems. Volume 5 - Summary

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    Demodulation process for AM baseband telemetry system

    Engineering evaluations and studies. Volume 3: Exhibit C

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    High rate multiplexes asymmetry and jitter, data-dependent amplitude variations, and transition density are discussed

    Novel Bandpass Filter Design based on Synchronous Filtering

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    The design of high-performance low-noise bandpass filtering systems has been studied from several aspects: (1) applying the synchronous filtering idea to the development of externally linear, time-invariant filters which can be internally nonlinear and/or time-varying, (2) seeking solutions to improve the noise performance of these filters, from parameter configuration to architecture design, and (3) implementing the systems of interest as transistor level circuits and verifying their function.Particularly, the state space representations for a biquad AM mode synchronous bandpass filter and a biquad FM mode synchronous complex filter have been proposed and realized with ideal Gm-C networks and log-domain circuits. Both systems utilize the modulator-core filter-modulator architecture to synchronize the internal signal processing. The core filter in an AM mode synchronous filter has constant center frequency and time-variant bandwidth, and the terminal modulators perform amplitude modulation to maintain the system’s external linearity and input/output characteristics. An FM mode synchronous filter typically has time-invariant bandwidth and performs frequency modulation before and after the signal filtering. Depending on whether the center frequency and terminal modulating frequency vary with time, there are static and dynamic types of FM mode synchronous filters. They both have the advantage of being able to filter the high frequency input signals in a low frequency range, which greatly alleviates the design and integration challenge due to the high frequency limitation of active components. Moreover, some dynamic filters effectively suppress the injected single-tone noise and generate an output with much higher SNR in comparison to the output from a static filter that implements the same transfer function.As a variation of an AM mode synchronous bandpass filter, the system derived by removing its back end modulator has been verified to have impressive noise reduction capability when processing noisy AM signals. Furthermore, it inspired the development of a feedback filtering system, the effective bandwidth of which could be tuned by scaling the feedback signal that time varies the core filter’s instantaneous bandwidth. It further provides an innovative approach to the design of a high-Q filter with superior immunity to internal noise, using a filter with very low Q factor. Finally, a design that combines the feedback architecture and the biquad FM mode synchronous complex filter is proposed and implemented as a log-domain filtering circuit. Appealing features of this system include wide dynamic range, flexible bandwidth and center frequency tunability. Since there is a low requirement for the high-frequency performance of active components, these filters make a good fit for monolithic integration, and greatly improved immunity to in-filter noise in comparison to that of an open loop complex filter with similar external filtering capability

    Investigation into synchronization for partial response signals and the development of a clock recovery scheme for 49QPRS signals

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    ThesisData communication is used increasingly in modern society. It is against this background that research is conducted worldwide toward the improvement of existing, as well as the development of new, improved communication techniques. Correlative encoding of data before transmission IS a very frequency-effective communication technique. The extent to which any communication technique is used, however, is dependent on a wide variety of factors. This study regarding the synchronisation of 49QPRS signals was undertaken with this in mind. Since digital signal processing (DSP) is used increasingly in modern communication systems, both a data transmitter and receiver were implemented by making use of this technique. Not only would this result in a system with all the desirable characteristics inherent to DSP, but, by making limited changes to the supporting software, the evaluation of a wide variety of alternatives became feasible. During the study a system making use of a pilot tone at one third the frequency of the carrier frequency was developed. The receiver recovers this signal by means of DSP techniques and its frequency is tripled. The phase of this recovered signal is crosscorrelated every 650 ~s in time with a locally generated signal of the correct frequency - and the phase of the locally generated signal is adjusted accordingly. It was found that the accuracy and stability of the locally generated signal were such that sufficient synchronisation was obtained in this manner. The quality of synchronisation is a function of the level of the pilot tone and if this tone should decrease to below a certain value, unacceptably large phase adjustments have to be made. This results in a senous degradation of the spectral purity of the recovered signal. However, the system as described exhibits extremely good noise immunity. During the development of the clock frequency recovery system, a baseband filter with a unique frequency response was defined. Making use of this, in conjunction with a limited amount of pre-processing, and an absolute value rectifier, recovery of the clock frequency becomes possible. In order to limit the amount of processing by the receiver, the baseband filter was implemented in its entirety in the transmitter. The recovered signal showed a moderate amount of amplitude variation, but an extremely stable synchronising signal could be derived from this. During the study both levels of synchronisation required by a hypothetical 49QPRS data communication system were therefore investigated fully and solutions found

    The payload/shuttle-data-communication-link handbook

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    Communication links between the Orbiter, payloads, and ground are described: end-to-end, hardline, S-band, Ku-band, TDRSS relay, waveforms, premodulation, subcarrier modulation, carrier modulation, transmitter power, antennas, the RF channel, system noise, received signal-to-noise spectral density, carrier-tracking loop, carrier demodulation, subcarrier demodulation, digital data detection, digital data decoding, and tandem link considerations
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