Relevant bibliographies by topics / Shielded transmission line

Academic literature on the topic 'Shielded transmission line'

Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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Journal articles on the topic "Shielded transmission line"

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S. Sadovic, D. Lepley, E. Brocard, and J. M. George. "Line Surge Arresters Applications On The Compact Transmission Lines." Journal of Energy - Energija 60, no. 1-4 (August 19, 2022): 41–46. http://dx.doi.org/10.37798/2011601-4260.

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This paper presents application of line surge arresters on the compact transmission lines. Single and double circuit compact transmission lines are considered. Line lightning performance is computed using sigma slp simulation software. Different line surge arrester installation configurations are considered. Line lightning performance is computed for different tower footing resistance. Line performance before and after line surge arrester installation are compared. Line lightning performance of the unshielded line with line surge arresters is compared with the performance of the shielded line without line surge arresters. For double circuit shielded compact lines, double circuit outage rate is computed. Influence of the tower footing resistance on the double circuit outage rate is presented.
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Hassan, E. E. "Field Solution, Polarization, and Eigenmodes of Shielded Microstrip Transmission Line." IEEE Transactions on Microwave Theory and Techniques 34, no. 8 (August 1986): 845–52. http://dx.doi.org/10.1109/tmtt.1986.1133456.

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Payandehjoo, K., A. Tavallaee, and R. Abhari. "Analysis of Shielded Electromagnetic Bandgap Structures Using Multiconductor Transmission-Line Theory." IEEE Transactions on Advanced Packaging 33, no. 1 (February 2010): 236–45. http://dx.doi.org/10.1109/tadvp.2009.2019266.

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Aref’yev, A. S., V. A. Neganov, and E. I. Nefedov. "An electrodynamic theory of the shielded asymmetric two-slot transmission line." Radiophysics and Quantum Electronics 41, no. 4 (April 1998): 337–45. http://dx.doi.org/10.1007/bf02676560.

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Tarasiewicz, E. J., F. Rimmer, and A. S. Morched. "Transmission line arrester energy, cost, and risk of failure analysis for partially shielded transmission lines." IEEE Transactions on Power Delivery 15, no. 3 (July 2000): 919–24. http://dx.doi.org/10.1109/61.871353.

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Campione, Salvatore, Aaron J. Pung, Larry Kevin Warne, William L. Langston, Ting Mei, and Howard Gerald Hudson. "VALIDATION OF SHIELDED CABLE MODELING IN XYCE BASED ON TRANSMISSION-LINE THEORY." Progress In Electromagnetics Research Letters 87 (2019): 51–57. http://dx.doi.org/10.2528/pierl19060311.

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Gnilenko, A. B., and A. B. Yakovlev. "Electric dyadic Green functions for applications to shielded multilayered transmission line problems." IEE Proceedings - Microwaves, Antennas and Propagation 146, no. 2 (1999): 111. http://dx.doi.org/10.1049/ip-map:19990137.

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Zanetta, L. C., and C. Ede M. Pereira. "Application studies of line arresters in partially shielded 138-kV transmission lines." IEEE Transactions on Power Delivery 18, no. 1 (January 2003): 95–100. http://dx.doi.org/10.1109/tpwrd.2002.803697.

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Zanetta, L. C., and C. E. M. Pereira. "Application Studies of Line Arresters in Partially Shielded 138 kV Transmission Lines." IEEE Power Engineering Review 22, no. 8 (August 2002): 72. http://dx.doi.org/10.1109/mper.2002.4312535.

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Elek, F., and G. V. Eleftheriades. "Dispersion analysis of the shielded Sievenpiper structure using multiconductor transmission-line theory." IEEE Microwave and Wireless Components Letters 14, no. 9 (September 2004): 434–36. http://dx.doi.org/10.1109/lmwc.2004.832075.

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Dissertations / Theses on the topic "Shielded transmission line"

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Natarajan, Saravana Prakash. "Micro coaxial transmission lines for integrated microwave circuits." [Tampa, Fla.] : University of South Florida, 2007. http://purl.fcla.edu/usf/dc/et/SFE0002265.

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Jia, Kelin. "Electromagnetic noise generated in the electrified railway propulsion system." Licentiate thesis, KTH, Elektroteknisk teori och konstruktion, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-31581.

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The electromagnetic compatibility (EMC) problem in the railway propulsion system is a significant safety issue of high concern. The problems can be caused by any part of the propulsion system as well as any combination of the sub systems. Simulation is a fast economical way to understand the system and to predict the EMC performance. In this thesis, the propulsion system is studied partly from the rectifier to the motor. To simulate the rectifier, a two level pulse width modulation (PWM) controlled rectifier is built in Simulink. Time domain line current as well as frequency domain spectra is studied. The spectrum changing according to time variation is obtained. In order to study the high derivative of switching pulse in the insulated gate bipolar transistor (IGBT), a simple circuit is proposed to investigate it. The high frequency noise spectrum is given and the variation of the spectrum due to the reverse recovery time of the ant-parallel diode is also demonstrated. Transmission line theory is used to model the cable used to connect the inverter and motor. The method to extract the characteristic capacitance and inductance matrices of the cable system is presented. Decoupling these characteristic matrices is required for modeling the multiconductor transmission line (MTL) in PSpice. A simple way to decouple them is thus proposed here. Through the simulation studies, we analyze the oscillation and overvoltage in the cable. A fourth cable with optimized layout is also illustrated here to reduce the oscillation on the line. Furthermore, the relationship between the length of line and the noise frequency is studied. Shielding is another way to reduce the electromagnetic (EM) coupling of power lines. The method to model shielded cables in PSpice is given in this thesis. Based on the model we have investigated the shielding effect and analyzed the impact of different grounding conditions on the shielding performance.
QC 20110321
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McIntyre, Eddie L. "Analysis shielded suspended stripline discontinuities." Thesis, Monterey, California : Naval Postgraduate School, 1990. http://handle.dtic.mil/100.2/ADA245192.

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Thesis (M.S. in Systems Engineering (Electronic Warfare))--Naval Postgraduate School, December 1990.
Thesis Advisor(s): Atwater, Harry A. Second Reader: Powell, James R. "December 1990." Description based on title screen as viewed on April 1, 2010. DTIC Identifier(s): Suspended Lines, Discontinuities, Strip Transmission Lines, Microwave Waveguides, X Band, Theses. Author(s) subject terms: Suspended Stripline Discontinuities. Includes bibliographical references (p. 108). Also available in print.
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Pasik, Michael Francis 1965. "A finite-element analysis of the propagation characteristics of shielded lossy planar transmission lines." Thesis, The University of Arizona, 1991. http://hdl.handle.net/10150/277834.

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A finite-element formulation for the analysis of shielded lossy planar transmission lines is presented. The formulation determines the propagation characteristics of a planar transmission line and avoids spurious non-physical modes with non-zero divergence by requiring the field to be divergenceless. Singularities in the field at perfectly conducting corners are accounted for by using singular basis functions. In addition, a set of entire-domain basis functions are developed to reduce the number of unknowns. A quasi-TEM formulation is also presented to provide a comparison with the full-wave analysis. Numerical results are provided to characterize the propagation characteristics of a microstrip transmission line. In particular, their dependence on the thickness of the microstrip and losses in the substrate is examined. In addition, the propagation characteristics of symmetric coupled microstrip transmission lines of finite thickness and the use of artificial magnetic side walls with stripline geometries are analyzed.
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Dumbell, Keith David. "Theoretical and experimental investigation of shield effects in microstrip." Thesis, University of Bath, 1989. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.257187.

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Cui, Xian. "Efficient radio frequency power amplifiers for wireless communications." Columbus, Ohio : Ohio State University, 2007. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=osu1195652135.

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Zhao, Cheng. "Efficient methods for novel passive structures in waveguide and shielded transmission line technology." Thesis, 2016. http://hdl.handle.net/2440/101563.

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With the rapid development of microwave and millimetre-wave systems, the performance requirements for passive band-pass filters and diplexers, as essential parts in these systems, are steadily increasing. Both rectangular waveguide and substrate-integrated waveguide technologies help to satisfy various high-performance requirements. Rectangular waveguides offer the advantages of low loss and high power handling capabilities, while substrate-integrated waveguides have the advantages of low cost and easy integration into planar circuit technology. Besides, the miniaturisation of electronic devices is of great importance, especially for microwave or millimetre-wave systems whose volume is limited by system considerations. Hence, the two main aims of this thesis are firstly to develop efficient methods which can improve the design reliability and reduce the design cycle of such passive devices, and secondly to present novel structures of band-pass filters and diplexers whose dimensions are reduced. In the first part of the thesis, a method based on the mode-matching technique is developed to rigorously and efficiently analyse the negative influence introduced by micromachining errors on the performance of band-pass H-plane iris filter. This analysis includes the effect on the centre frequency and 3 dB bandwidth caused by the round angles between waveguide walls and H-plane irises, or by the bevel angles on the H-plane irises. To remove these undesired influences, three approaches are proposed and verified with simulations performed with the finite-element method. In the next part, efficient approximation approaches are investigated in the framework of the mode-matching method to analyse the characteristics of cylindrical posts placed in the cross-section of a rectangular waveguide or substrate-integrated waveguide. Compared with the H-plane irises in rectangular waveguides, cylindrical posts are more promising for realising band-pass rectangular waveguide filters, because the geometries are easier to manufacture and less prone to machining errors. Thus, a general design procedure for band-pass post filters in rectangular waveguides and substrate-integrated waveguides is developed and verified with finite-element simulations and measurements on prototypes. The tolerance analysis for the band-pass filters is also explored quickly and accurately with the developed method, while the influence of realistic material losses on the insertion loss of various structures, is also quantitatively analysed with a full-wave simulation solver. Next, the characteristics of a shielded microstrip line for single-mode operation is investigated rigorously based on the mode-matching method. The research focuses on the influence of the metal enclosure dimensions on the fundamental mode, and the relationships between the cutoff frequency of the 2nd-order mode and the geometrical variables of the cross-section of the shielded transmission line. A similar method is then applied to an E-type folded substrate-integrated waveguide. The analysis demonstrates that the propagation characteristics for the first twenty modes in the E-type folded substrate-integrated waveguide and its corresponding equivalent rectangular waveguide are almost identical if the width of the middle metal vane in the E-type folded substrate-integrated waveguide is chosen reasonably. Exploiting this similarity property, a novel concept of band-pass post filter in E-type folded substrate-integrated waveguide technology is developed to reduce the band-pass filter dimension further, together with an efficient specific design procedure. The validity of the approach is verified via finite-element simulations and measurements on a fabricated prototype. Finally, to reduce the sizes of common diplexers, four types of novel three-port junctions are proposed, including two improved Y-junctions in substrate-integrated waveguide technology, a double-layer junction in substrate-integrated waveguide technology, a Y-junction in T-type folded substrate-integrated waveguide technology, and a junction with stairs in T-type and E-type folded substrate-integrated waveguide technology. Exploiting the flexibility of the in-house developed mode-matching code or a commercial finite-element simulation solver, the characteristics for all presented junctions are shown to satisfy the constraints for optimum performance of diplexers when adjusting the relevant variables in the corresponding structures. Three types of these junctions are then utilised in realising diplexers whose performance is verified over the required operation bands with either numerical simulations or measurements on fabricated prototypes. In summary, this thesis has introduced novel concepts and realisations of compact band-pass filters and diplexers in unfolded or folded substrate-integrated waveguide technology, as well as related structures. One of the crucial aspects emphasised throughout the research is the need for efficient and accurate modelling methods specifically tailored to support such developments. This has been demonstrated throughout the thesis with the combined use of powerful numerical methods and equivalent models based on symmetries or unfolded geometries.
Thesis (Ph.D.) -- University of Adelaide, School of Electrical and Electronic Engineering, 2016.
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Elek, Francis. "Theory and Applications of Multiconductor Transmission Line Analysis for Shielded Sievenpiper and Related Structures." Thesis, 2010. http://hdl.handle.net/1807/26146.

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This thesis focuses on the analytical modeling of periodic structures which contain bands with multiple modes of propagation. The work is motivated by several structures which exhibit dual-mode propagation bands. Initially, transmission line models are focused on. Transmission line models of periodic structures have been used extensively in a wide variety of applications due to their simplicity and the ease with which one can physically interpret the resulting wave propagation effects. These models, however, are fundamentally limited, as they are only capable of capturing a single mode of propagation. In this work multiconductor transmission line theory, which is the multi-mode generalization of transmission line theory, is shown to be an effective and accurate technique for the analytical modeling of periodically loaded structures which support multiple modes of propagation. Many results from standard periodic transmission line analysis are extended and generalized in the multiconductor line analysis, providing a familiar intuitive model of the propagation phenomena. The shielded Sievenpiper structure, a periodic multilayered geometry, is analyzed in depth, and provides a canonical example of the developed analytical method. The shielded Sievenpiper structure exhibits several interesting properties which the multiconductor transmission line analysis accurately captures. It is shown that under a continuous change of geometrical parameters, the dispersion curves for the shielded structure are transformed from dual-mode to single-mode. The structure supports a stop-band characterized by complex modes, which appear as pairs of frequency varying complex conjugate propagation constants. These modes are shown to arise even though the structure is modeled as lossless. In addition to the periodic analysis, the scattering properties of finite cascades of such structures are analyzed and related to the dispersion curves generated from the periodic analysis. Excellent correspondence with full wave finite element method simulations is demonstrated. In conclusion, a physical application is presented: a compact unidirectional ring-slot antenna utilizing the shielded Sievenpiper structure is constructed and tested.
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Tuan, Shih-Chung, and 段世中. "INVESTIGATION FOR SHIELDED PLANAR TRANSMISSION LINES ON UNIAXIAL ANISOTROPIC MEDIUM." Thesis, 1997. http://ndltd.ncl.edu.tw/handle/75855121745004170965.

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碩士
大同工學院
電機工程學系
85
This paper investigates propagation characteristics of shielded planar transmission line in uniaxial anisotropic media. Three orientations of opticalaxis of a uniaxial anisotropic media are discussed. Boundary integral equations for shielded microstrip and coplanar waveguidestructures on uniaxial anisotropic media are derived. The integral equation is simpler to be dealt directly with wave equations for Ew and Hw, where w is the optical axis ( that is to use the electric field and the magnetic field ofthe direction of the optical axis to establish its wave equations so as to deduce other transverse fields).As will be derived in Chapter 2, fields insidea uniaxial anisotropic substrate can always be constructed by superposition ofa TE and a TM field solutions. In formulation of boundary integral equation, all we need is to rearrange the transverse electric and magnetic field components. We shall express transverse magnetic fields in terms of transverseelectric fields. By numerical results, we observe that the characteristics of coplanar waveguides in a uniaxial anisotropic media with optical axis along the propagationdirection is nearly the same as that in an isotropic media. We also see thatthe characteristics of the coplanar structure in a uniaxial anisotropic media with optical axis along with x-axis and propagation direction ( y- axis ) are nearly the same as that in an isotropic media at frequency above 10GHz。
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Traphöner, Jonas. "Evaluation of impedance parameters in transmission lines." Thesis, 2014. http://hdl.handle.net/2152/26009.

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A more accurate and flexible grid analysis is achieved through an adaptive and dynamic calculation of line parameters. This is needed for future smart grid implementation. The primary objective of this thesis is to analyze the calculation of transmission line parameters. The impact certain assumptions have on the accuracy of line parameters and fault location algorithms are evaluated. In particular, the impact of the grounded shield wire assumption on the accuracy of fault location algorithms is analyzed. This implies that the impedance of towers be taken into consideration, rather than the simplification of a direct connection of the earth wire to ground. Secondly, the phenomenon of skin-effect is analyzed and evaluated in regards to a more accurate representation of line parameters and a minimization of parameter inaccuracy.
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Book chapters on the topic "Shielded transmission line"

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Shevtsov, A. N., A. A. Skorokhodov, A. E. Hannibal, T. G. Korotkova, V. V. Kolobov, M. B. Barannik, and V. V. Ivonin. "Experiment FENICS-2019: Exploration of Electrical Conductivity of the Eastern Fennoscandinavian Shield with Grounded Sections of Power Transmission Lines (In Memory of Abdulkhay Azimovich Zhamaletdinov)." In Springer Proceedings in Earth and Environmental Sciences, 13–24. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-91467-7_2.

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Zhang, Jinsheng, and Wei Chen. "Measurement and Modeling of Long Multi-Conductor Shielded Cable Based on Fast Vector Fitting Algorithm." In Advances in Transdisciplinary Engineering. IOS Press, 2022. http://dx.doi.org/10.3233/atde221040.

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The transmission lines need to be modeled accurately to predict the voltage reflections and EMI levels of the converter system. In this paper, a transmission line model based on fast vector fitting algorithm is proposed. At high frequencies, the parasitic capacitance of the cable conductor causes the cable impedance to resonate. Due to skin effect and proximity effect, the cable parameters change with frequency. The frequency equivalent model is used to characterize the effect of cable parameters varying with frequency. When cable is open-circuited and short-circuited, and the high-frequency impedance characteristics of the cable are measured using an impedance analyzer. Through the relationship between measured impedance and model impedance, the impedance of the model is obtained. The impedance is fitted by fast vector fitting algorithm. Finally, the feasibility and validity of the proposed model are verified by comparing the simulation and measurement results in the frequency and time domains.
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Whitworth, Brian. "Spam as a Symptom of Electronic Communication Technologies that Ignore Social Requirements." In Encyclopedia of Human Computer Interaction, 559–66. IGI Global, 2006. http://dx.doi.org/10.4018/978-1-59140-562-7.ch083.

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Spam, undesired and usually unsolicited e-mail, has been a growing problem for some time. A 2003 Sunbelt Software poll found spam (or junk mail) has surpassed viruses as the number-one unwanted network intrusion (Townsend & Taphouse, 2003). Time magazine reports that for major e-mail providers, 40 to 70% of all incoming mail is deleted at the server (Taylor, 2003), and AOL reports that 80% of its inbound e-mail, 1.5 to 1.9 billion messages a day, is spam the company blocks. Spam is the e-mail consumer’s number-one complaint (Davidson, 2003). Despite Internet service provider (ISP) filtering, up to 30% of in-box messages are spam. While each of us may only take seconds (or minutes) to deal with such mail, over billions of cases the losses are significant. A Ferris Research report estimates spam 2003 costs for U.S. companies at $10 billion (Bekker, 2003). While improved filters send more spam to trash cans, ever more spam is sent, consuming an increasing proportion of network resources. Users shielded behind spam filters may notice little change, but the Internet transmitted-spam percentage has been steadily growing. It was 8% in 2001, grew from 20% to 40% in 6 months over 2002 to 2003, and continues to grow (Weiss, 2003). In May 2003, the amount of spam e-mail exceeded nonspam for the first time, that is, over 50% of transmitted e-mail is now spam (Vaughan-Nichols, 2003). Informal estimates for 2004 are over 60%, with some as high as 80%. In practical terms, an ISP needing one server for customers must buy another just for spam almost no one reads. This cost passes on to users in increased connection fees. Pretransmission filtering could reduce this waste, but creates another problem: spam false positives, that is, valid e-mail filtered as spam. If you accidentally use spam words, like enlarge, your e-mail may be filtered. Currently, receivers can recover false rejects from their spam filter’s quarantine area, but filtering before transmission means the message never arrives at all, so neither sender nor receiver knows there is an error. Imagine if the postal mail system shredded unwanted mail and lost mail in the process. People could lose confidence that the mail will get through. If a communication environment cannot be trusted, confidence in it can collapse. Electronic communication systems sit on the horns of a dilemma. Reducing spam increases delivery failure rate, while guaranteeing delivery increases spam rates. Either way, by social failure of confidence or technical failure of capability, spam threatens the transmission system itself (Weinstein, 2003). As the percentage of transmitted spam increases, both problems increase. If spam were 99% of sent mail, a small false-positive percentage becomes a much higher percentage of valid e-mail that failed. The growing spam problem is recognized ambivalently by IT writers who espouse new Bayesian spam filters but note, “The problem with spam is that it is almost impossible to define” (Vaughan-Nichols, 2003, p. 142), or who advocate legal solutions but say none have worked so far. The technical community seems to be in a state of denial regarding spam. Despite some successes, transmitted spam is increasing. Moral outrage, spam blockers, spamming the spammers, black and white lists, and legal responses have slowed but not stopped it. Spam blockers, by hiding the problem from users, may be making it worse, as a Band-Aid covers but does not cure a systemic sore. Asking for a technical tool to stop spam may be asking the wrong question. If spam is a social problem, it may require a social solution, which in cyberspace means technical support for social requirements (Whitworth & Whitworth, 2004).
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Whitworth, Brian. "Spam as a Symptom of Electronic Communication Technologies that Ignore Social Requirements." In E-Collaboration, 1464–73. IGI Global, 2009. http://dx.doi.org/10.4018/978-1-60566-652-5.ch107.

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Spam, undesired and usually unsolicited e-mail, has been a growing problem for some time. A 2003 Sunbelt Software poll found spam (or junk mail) has surpassed viruses as the number-one unwanted network intrusion (Townsend & Taphouse, 2003). Time magazine reports that for major e-mail providers, 40 to 70% of all incoming mail is deleted at the server (Taylor, 2003), and AOL reports that 80% of its inbound e-mail, 1.5 to 1.9 billion messages a day, is spam the company blocks. Spam is the e-mail consumer’s number-one complaint (Davidson, 2003). Despite Internet service provider (ISP) filtering, up to 30% of in-box messages are spam. While each of us may only take seconds (or minutes) to deal with such mail, over billions of cases the losses are significant. A Ferris Research report estimates spam 2003 costs for U.S. companies at $10 billion (Bekker, 2003). While improved filters send more spam to trash cans, ever more spam is sent, consuming an increasing proportion of network resources. Users shielded behind spam filters may notice little change, but the Internet transmitted-spam percentage has been steadily growing. It was 8% in 2001, grew from 20% to 40% in 6 months over 2002 to 2003, and continues to grow (Weiss, 2003). In May 2003, the amount of spam e-mail exceeded nonspam for the first time, that is, over 50% of transmitted e-mail is now spam (Vaughan-Nichols, 2003). Informal estimates for 2004 are over 60%, with some as high as 80%. In practical terms, an ISP needing one server for customers must buy another just for spam almost no one reads. This cost passes on to users in increased connection fees. Pretransmission filtering could reduce this waste, but creates another problem: spam false positives, that is, valid e-mail filtered as spam. If you accidentally use spam words, like enlarge, your e-mail may be filtered. Currently, receivers can recover false rejects from their spam filter’s quarantine area, but filtering before transmission means the message never arrives at all, so neither sender nor receiver knows there is an error. Imagine if the postal mail system shredded unwanted mail and lost mail in the process. People could lose confidence that the mail will get through. If a communication environment cannot be trusted, confidence in it can collapse. Electronic communication systems sit on the horns of a dilemma. Reducing spam increases delivery failure rate, while guaranteeing delivery increases spam rates. Either way, by social failure of confidence or technical failure of capability, spam threatens the transmission system itself (Weinstein, 2003). As the percentage of transmitted spam increases, both problems increase. If spam were 99% of sent mail, a small false-positive percentage becomes a much higher percentage of valid e-mail that failed. The growing spam problem is recognized ambivalently by IT writers who espouse new Bayesian spam filters but note, “The problem with spam is that it is almost impossible to define” (Vaughan-Nichols, 2003, p. 142), or who advocate legal solutions but say none have worked so far. The technical community seems to be in a state of denial regarding spam. Despite some successes, transmitted spam is increasing. Moral outrage, spam blockers, spamming the spammers, black and white lists, and legal responses have slowed but not stopped it. Spam blockers, by hiding the problem from users, may be making it worse, as a Band-Aid covers but does not cure a systemic sore. Asking for a technical tool to stop spam may be asking the wrong question. If spam is a social problem, it may require a social solution, which in cyberspace means technical support for social requirements (Whitworth & Whitworth, 2004).
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Conference papers on the topic "Shielded transmission line"

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Kuroki, Futoshi, and Kazuya Miyamoto. "Guided modes in shielded slot transmission line." In 2006 Asia-Pacific Microwave Conference. IEEE, 2006. http://dx.doi.org/10.1109/apmc.2006.4429409.

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Lim, Hong Yi, Geok Ing Ng, and Yoke Choy Leong. "Compact true time delay line with partially shielded coplanar waveguide transmission lines." In 2012 IEEE International Symposium on Radio-Frequency Integration Technology (RFIT). IEEE, 2012. http://dx.doi.org/10.1109/rfit.2012.6401614.

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Lahiji, Rosa R., Linda P. B. Katehi, and Saeed Mohammadi. "A Distributed Analogue CMOS Phase Shifter with Shielded Transmission Line." In 2008 38th European Microwave Conference (EuMC). IEEE, 2008. http://dx.doi.org/10.1109/eumc.2008.4751578.

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Campione, Salvatore, Aaron J. Pung, Larry K. Warne, William L. Langston, and Ting Mei. "Modeling shielded cables in Xyce based on transmission-line theory." In 2019 USNC-URSI Radio Science Meeting (Joint with AP-S Symposium). IEEE, 2019. http://dx.doi.org/10.1109/usnc-ursi.2019.8861711.

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Holisaz, Hamed, and Safieddin Safavi Naeini. "A buffer-feedback 140GHz oscillator with transmission-line shielded inductor." In 2017 IEEE International Symposium on Radio-Frequency Integration Technology (RFIT). IEEE, 2017. http://dx.doi.org/10.1109/rfit.2017.8048227.

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Haridim, M., H. Matzner, E. Diveker, and H. Nissan. "A novel balanced two are-shaped conductors shielded transmission line." In 2003 IEEE International Symposium on Electromagnetic Compatibility, 2003. EMC '03. IEEE, 2003. http://dx.doi.org/10.1109/icsmc2.2003.1429052.

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Gnilenko, Alexey B. "Entire-Domain Method of Moments Analysis of Shielded Microstrip Transmission Line." In 2007 International Kharkiv Symposium Physics and Engrg. of Millimeter and Sub-Millimeter Waves (MSMW). IEEE, 2007. http://dx.doi.org/10.1109/msmw.2007.4294640.

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Tyurnev, V. V. "Calculation of a Shielded Transmission Line, Containing Circular Cylindrical Conductors and Coplanar Waveguides on the Shield." In 2006 8th International Conference on Actual Problems of Electronic Instrument Engineering. IEEE, 2006. http://dx.doi.org/10.1109/apeie.2006.4292527.

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Tyurnev, V. "Waves in the Shielded Transmission Line, Containing Circular Cylindrical Wires and Coplanar Waveguides on the Shield." In 2006 16th International Crimean Microwave and Telecommunication Technology. IEEE, 2006. http://dx.doi.org/10.1109/crmico.2006.256097.

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D'Asaro, Matthew, Daniel Sheen, and Jeffrey Lang. "A fully-shielded flexible and stretchable microwave transmission-line tactile pressure sensor." In 2016 IEEE SENSORS. IEEE, 2016. http://dx.doi.org/10.1109/icsens.2016.7808912.

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Reports on the topic "Shielded transmission line"

1

Hill, D. A., M. L. Crawford, M. Kanda, and D. I. Wu. Apperture coupling to shielded transmission lines :. Gaithersburg, MD: National Institute of Standards and Technology, 1992. http://dx.doi.org/10.6028/nist.ir.3988.

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2

Baum, Carl E. A Spiral-Transmission-Line Technique for Detecting Slot Apertures in Shield Enclosures. Fort Belvoir, VA: Defense Technical Information Center, December 1987. http://dx.doi.org/10.21236/ada200082.

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