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Publié le 11 septembre 2023

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1

Ashraf, Muhammad A., Abdel Razik Sebak, Zeyad O. Alhekail, Majeed Alkanhal et Saleh Alshebeili. « Broadband dielectric loaded parallel coupled microstrip quadrature coupler ». Microwave and Optical Technology Letters 56, no 7 (23 avril 2014) : 1694–97. http://dx.doi.org/10.1002/mop.28417.

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2

Thirupathaiah, Kola, L. Koteswara Rao et Boda Ravi. « Nanoplasmonic Directional Coupler Using Asymmetric Parallel Coupled MIM Waveguides ». IEEE Photonics Technology Letters 34, no 8 (15 avril 2022) : 401–4. http://dx.doi.org/10.1109/lpt.2022.3161930.

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3

Wei Jiang, Wei Jiang, et Yating Zhou Yating Zhou. « Coverage of coherent output states in parallel-coupled dual-racetrack microresonators ». Chinese Optics Letters 14, no 10 (2016) : 102304–7. http://dx.doi.org/10.3788/col201614.102304.

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4

Morrell, John B., et J. Kenneth Salisbury. « Parallel-Coupled Micro-Macro Actuators ». International Journal of Robotics Research 17, no 7 (juillet 1998) : 773–91. http://dx.doi.org/10.1177/027836499801700707.

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5

Schouveiler, Lionel, et Christophe Eloy. « Coupled flutter of parallel plates ». Physics of Fluids 21, no 8 (août 2009) : 081703. http://dx.doi.org/10.1063/1.3204672.

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6

Liu, L., G. Yang, B. Wang, C. Zhang, R. Li, Z. Zhang, Y. Ji et L. Wang. « C-Coupler1 : a Chinese community coupler for Earth system modeling ». Geoscientific Model Development 7, no 5 (9 octobre 2014) : 2281–302. http://dx.doi.org/10.5194/gmd-7-2281-2014.

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Abstract. A coupler is a fundamental software tool for Earth system modeling. Targeting the requirements of 3-D coupling, high-level sharing, common model software platform and better parallel performance, we started to design and develop a community coupler (C-Coupler) from 2010 in China, and finished the first version (C-Coupler1) recently. C-Coupler1 is a parallel 3-D coupler that achieves the same (bitwise-identical) results with any number of processes. Guided by the general design of C-Coupler, C-Coupler1 enables various component models and various coupled models to be integrated on the same common model software platform to achieve a higher-level sharing, where the component models and the coupler can keep the same code version in various model configurations for simulation. Moreover, it provides the C-Coupler platform, a uniform runtime environment for operating various kinds of model simulations in the same manner. C-Coupler1 is ready for Earth system modeling, and it is publicly available. In China, there are more and more modeling groups using C-Coupler1 for the development and application of models.
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7

WANG HUAI-YU. « MODEL INVESTIGATIONS OF COUPLED PARALLEL CHAINS ». Acta Physica Sinica 42, no 10 (1993) : 1627. http://dx.doi.org/10.7498/aps.42.1627.

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8

Bong Shin, So, Hyoung Chul Choi et Sang-Gug Lee. « Source-injection parallel coupled LC-QVCO ». Electronics Letters 39, no 14 (2003) : 1059. http://dx.doi.org/10.1049/el:20030679.

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9

Wright, Paul E. « Two parallel processors with coupled inputs ». Advances in Applied Probability 24, no 4 (décembre 1992) : 986–1007. http://dx.doi.org/10.2307/1427722.

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We consider the double queue arising from a system consisting of two processors serving three job streams generated by independent Poisson sources. The central job stream of rate v consists of jobs which place resource demands on both processors, which are handled separately by each processor once the request is made. In addition, the first processor receives background work at a rate of λwhile the second receives similar tasks at a rate η. Each processor has exponentially distributed service times with rates α and β respectively. A functional equation is found for P(z, w), the generating function of the joint queue-length distribution, which leads to a relation between P(z, 0) and P(0, w) in the region |z|, |w| < 1 of a complex algebraic curve associated with the problem. The curve is parametrized by elliptic functions z(ξ) and w(ξ) and the relation between Ρ (z(ξ), 0) and P(0, w(ξ)) persists on their analytic continuation as elliptic functions in the ξ-plane. This leads to their eventual determination by an appeal to the theory of elliptic functions. From this determination we obtain asymptotic limit laws for the expectations of the mean number of jobs in each queue conditioned on the other, as the number of jobs in both processors tends to∞. Transitions are observed in the asymptotic behavior of these quantities as one crosses various boundaries in the parameter space. An interpretation of these results via the theory of large deviations is presented.
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10

Matthaei, George. « Design of parallel-coupled resonator filters ». IEEE Microwave Magazine 8, no 5 (octobre 2007) : 78–87. http://dx.doi.org/10.1109/mmm.2007.904714.

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11

Rinaldo, Frank, et Stephen Wolbers. « Loosely Coupled Parallel Processing at Fermilab ». Computers in Physics 7, no 2 (1993) : 184. http://dx.doi.org/10.1063/1.4823164.

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12

Hammond, Jeff R., et Karol Kowalski. « Parallel computation of coupled-cluster hyperpolarizabilities ». Journal of Chemical Physics 130, no 19 (21 mai 2009) : 194108. http://dx.doi.org/10.1063/1.3134744.

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13

Shirts, Michael R., et Vijay S. Pande. « Mathematical Analysis of Coupled Parallel Simulations ». Physical Review Letters 86, no 22 (28 mai 2001) : 4983–87. http://dx.doi.org/10.1103/physrevlett.86.4983.

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14

Addanki, Satish, I. S. Amiri et P. Yupapin. « Parallel coupled ring resonators performance analysis ». Results in Physics 12 (mars 2019) : 635–37. http://dx.doi.org/10.1016/j.rinp.2018.12.008.

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15

Wright, Paul E. « Two parallel processors with coupled inputs ». Advances in Applied Probability 24, no 04 (décembre 1992) : 986–1007. http://dx.doi.org/10.1017/s0001867800025040.

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We consider the double queue arising from a system consisting of two processors serving three job streams generated by independent Poisson sources. The central job stream of rate v consists of jobs which place resource demands on both processors, which are handled separately by each processor once the request is made. In addition, the first processor receives background work at a rate of λwhile the second receives similar tasks at a rate η. Each processor has exponentially distributed service times with rates α and β respectively. A functional equation is found for P(z, w), the generating function of the joint queue-length distribution, which leads to a relation between P(z, 0) and P(0, w) in the region |z|, |w| &lt; 1 of a complex algebraic curve associated with the problem. The curve is parametrized by elliptic functions z(ξ) and w(ξ) and the relation between Ρ (z(ξ), 0) and P(0, w(ξ)) persists on their analytic continuation as elliptic functions in the ξ-plane. This leads to their eventual determination by an appeal to the theory of elliptic functions. From this determination we obtain asymptotic limit laws for the expectations of the mean number of jobs in each queue conditioned on the other, as the number of jobs in both processors tends to∞. Transitions are observed in the asymptotic behavior of these quantities as one crosses various boundaries in the parameter space. An interpretation of these results via the theory of large deviations is presented.
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16

Tilson, J. L., W. C. Ermler et R. M. Pitzer. « Parallel spin-orbit coupled configuration interaction ». Computer Physics Communications 128, no 1-2 (juin 2000) : 128–38. http://dx.doi.org/10.1016/s0010-4655(00)00061-8.

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17

Watts, John D. « Parallel algorithms for coupled-cluster methods ». Parallel Computing 26, no 7-8 (juillet 2000) : 857–67. http://dx.doi.org/10.1016/s0167-8191(00)00016-8.

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18

Zhang, Tianliang, Kai Yang, Yifei Zhang, Hui Jin et Zhengxiang Luo. « Parallel-coupled linear-phase superconducting filter ». Chinese Science Bulletin 59, no 16 (11 mars 2014) : 1925–28. http://dx.doi.org/10.1007/s11434-014-0221-x.

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19

Hardy, A., et W. Streifer. « Coupled mode theory of parallel waveguides ». Journal of Lightwave Technology 3, no 5 (1985) : 1135–46. http://dx.doi.org/10.1109/jlt.1985.1074291.

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20

Utku, S., et M. Salama. « Parallel solution of closely coupled systems ». International Journal for Numerical Methods in Engineering 23, no 12 (décembre 1986) : 2177–86. http://dx.doi.org/10.1002/nme.1620231203.

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21

UEFUJI, Junpei, Tomoya NIHO et Tomoyoshi HORIE. « 635 Coupled algorithm suitable for coupled parallel finite element analysis ». Proceedings of The Computational Mechanics Conference 2006.19 (2006) : 539–40. http://dx.doi.org/10.1299/jsmecmd.2006.19.539.

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22

Lee, Jae-Gon, et Jeong-Hae Lee. « Parallel Coupled Bandstop Filter Using Double Negative Coupled Transmission Line ». IEEE Microwave and Wireless Components Letters 17, no 4 (avril 2007) : 283–85. http://dx.doi.org/10.1109/lmwc.2007.892973.

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23

Yoon, Hong-Jib, et Byung-Wook Min. « Two Section Wideband 90° Hybrid Coupler Using Parallel-Coupled Three-Line ». IEEE Microwave and Wireless Components Letters 27, no 6 (juin 2017) : 548–50. http://dx.doi.org/10.1109/lmwc.2017.2701304.

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24

Abbosh, A. M. « Broadband parallel‐coupled quadrature coupler with floating‐potential ground plane conductor ». Microwave and Optical Technology Letters 50, no 9 (septembre 2008) : 2304–7. http://dx.doi.org/10.1002/mop.23701.

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25

Liu, Li, Chao Sun, Xinzhu Yu, Hao Yu, Qingu Jiang, Xingliang Li, Ruizhe Li, Bin Wang, Xueshun Shen et Guangwen Yang. « C-Coupler3.0 : an integrated coupler infrastructure for Earth system modelling ». Geoscientific Model Development 16, no 10 (25 mai 2023) : 2833–50. http://dx.doi.org/10.5194/gmd-16-2833-2023.

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Abstract. The community coupler (C-Coupler) for Earth system modelling is a coupler family that was developed in China in 2010. C-Coupler3.0, the latest version, is fully compatible with the previous version, C-Coupler2, and is an integrated infrastructure with new features, i.e. a series of parallel-optimization technologies for accelerating coupling initialization and reducing memory usage, a common halo-exchange library for developing a parallel version of a model, a common module-integration framework for integrating a software module (e.g. a flux algorithm, a parameterization scheme, and a data assimilation method), a common framework for conveniently developing a weakly coupled ensemble data assimilation system, and a common framework for flexibly inputting and outputting fields in parallel. Specifically, C-Coupler3.0 is able to handle coupling under much finer resolutions (e.g. more than 100 million horizontal grid cells) with fast coupling initialization and successful generation of remapping-weight files.
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26

He, Zelong, Jiyuan Bai et Cheng Ma. « Conductance through a parallel-coupled double quantum dot with a side-coupled quantum dot system ». Modern Physics Letters B 31, no 09 (30 mars 2017) : 1750095. http://dx.doi.org/10.1142/s0217984917500956.

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Using the non-equilibrium Green’s function technique, conductance through a parallel-coupled double quantum dot (PCDQD) with a side-coupled quantum dot system is investigated. The evolution of the conductance strongly depends on the coupling between the side-coupled quantum dot and PCDQD. Moreover, the conductance as a function of the level of side-couple quantum dot is investigated. Numerical results indicate the lineshape of Fano resonance can be modulated by adjusting the interdot coupling strength.
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27

La, Dong-Sheng, Xin Guan, Shuai-Ming Chen, Yu-Ying Li et Jing-Wei Guo. « Wideband Band-Pass Filter Design Using Coupled Line Cross-Shaped Resonator ». Electronics 9, no 12 (17 décembre 2020) : 2173. http://dx.doi.org/10.3390/electronics9122173.

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In this paper, a wideband bandpass filter with a coupled line cross-shaped resonator (CLCSR) is proposed. The proposed bandpass filter is composed of two open-end parallel coupled lines, one short-end parallel coupled line, one branch microstrip line, and the parallel coupled line feed structure. With the use of the even and odd mode approach, the transmission zeros and transmission poles of the proposed bandpass filter are analyzed. The coupling coefficient of the parallel coupled line feed structure is big, so the distance between the parallel coupled line is too small to be processed. A three microstirp lines coupled structure is used to realize strong coupling and cross coupling. This structure also can reduce the return loss in passband and increase the out-of-band rejection. The transmission zeros can be adjusted easily by varying the lengths of the open-end parallel coupled line or the short-end parallel coupled line. The proposed bandpass filter is fabricated and measured. The simulated results agree well with the measured ones, which shows that the design method is valid.
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28

Liu, L., G. Yang, B. Wang, C. Zhang, R. Li, Z. Zhang, Y. Ji et L. Wang. « C-Coupler1 : a Chinese community coupler for Earth System Modelling ». Geoscientific Model Development Discussions 7, no 3 (11 juin 2014) : 3889–936. http://dx.doi.org/10.5194/gmdd-7-3889-2014.

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Abstract. Coupler is a fundamental software tool for Earth System Modelling. Targeting the requirements of 3-D coupling, high-level sharing, common model software platform and better parallel performance, we started to design and develop a community coupler (C-Coupler) from 2010 in China, and finished the first version (C-Coupler1) recently. The C-Coupler1 is a parallel 3-D coupler that achieves the same (bit-identical) result with any number of processes. Guided by the general design of the C-Coupler, the C-Coupler1 enables various component models and various coupled model versions to be integrated on the same common model software platform to achieve a~higher-level sharing, where the component models and the coupler can keep the same code version in various model versions for simulation. Moreover, it provides the C-Coupler platform, a uniform runtime environment for operating various kinds of model simulations in the same manner. Now the C-Coupler1 is ready for Earth System Modelling, and it is publicly available. In China, there are more and more model groups using the C-Coupler1 for the development and application of models.
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29

Reja, Ahmed Hameed, Syed Naseem Ahmad et Mushtaq A. Alqaisy. « Study the Effect of SRRs on Broadband Microwave Parallel-Coupled Band-Pass Filters ». International Journal of Computer and Electrical Engineering 6, no 2 (2014) : 132–36. http://dx.doi.org/10.7763/ijcee.2014.v6.809.

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30

NIHO, Tomoya, Katsuya NAGAYOSHI, Junpei UEFUJI et Tomoyoshi HORIE. « 702 A Suitable coupled algorithm for coupled parallel finite element analysis ». Proceedings of The Computational Mechanics Conference 2005.18 (2005) : 519–20. http://dx.doi.org/10.1299/jsmecmd.2005.18.519.

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31

Yasumoto, Kiyotoshi. « Coupled-mode formulation of parallel dielectric waveguides ». Optics Letters 18, no 7 (1 avril 1993) : 503. http://dx.doi.org/10.1364/ol.18.000503.

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32

BODE, M., D. RUWISCH, P. SCHÜTZ, M. ALONSO, V. PÉREZ-MUÑUZURI, V. PÉREZ-VILLAR et M. MARKUS. « PARALLEL ANALOG COMPUTATION OF COUPLED BIOLOGICAL OSCILLATORS ». Journal of Biological Systems 03, no 01 (mars 1995) : 81–93. http://dx.doi.org/10.1142/s0218339095000083.

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In this work the dynamics of coupled nonlinear oscillators, which are ubiquitous in biology, is experimentally studied by using electrical relaxation oscillators. The results of this analog computation obtained with two and three coupled oscillators are in agreement with the results known from numerical approaches. Phase death, which is a mutual annihilation of oscillations, is a generic phenomenon. All modes known from approaches using identical oscillators have been found. Additionally we observed new generic modes that are caused by inhomogeneities of the oscillators, such differences being typical for biological cells. Simulations of excitable electrical oscillators yield similar results.
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33

Paul, D., N. M. Nakhla, R. Achar et M. S. Nakhla. « Parallel Simulation of Massively Coupled Interconnect Networks ». IEEE Transactions on Advanced Packaging 33, no 1 (février 2010) : 115–27. http://dx.doi.org/10.1109/tadvp.2009.2025263.

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34

Ford, R. A., et M. H. Hamdan. « Coupled parallel flow through composite porous layers ». Applied Mathematics and Computation 97, no 2-3 (décembre 1998) : 261–71. http://dx.doi.org/10.1016/s0096-3003(97)10141-2.

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35

YOSHIMURA, Shinobu. « Coupled Analysis vs Large-scale Parallel Analysis ». Proceedings of The Computational Mechanics Conference 2003.16 (2003) : 37–38. http://dx.doi.org/10.1299/jsmecmd.2003.16.37.

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36

Franco, R., J. Silva-Valencia et M. S. Figueira. « Linear conductance through parallel coupled quantum dots ». Microelectronics Journal 39, no 3-4 (mars 2008) : 354–58. http://dx.doi.org/10.1016/j.mejo.2007.07.061.

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37

Gropp, William D. « Solving PDEs on loosely-coupled parallel processors ». Parallel Computing 5, no 1-2 (juillet 1987) : 165–73. http://dx.doi.org/10.1016/0167-8191(87)90015-9.

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38

Quinn, Michael J. « Parallel sorting algorithms for tightly coupled multiprocessors ». Parallel Computing 6, no 3 (mars 1988) : 349–57. http://dx.doi.org/10.1016/0167-8191(88)90075-0.

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39

Gonçalves-e-Silva, Kayo, Daniel Aloise et Samuel Xavier-de-Souza. « Parallel synchronous and asynchronous coupled simulated annealing ». Journal of Supercomputing 74, no 6 (20 mars 2018) : 2841–69. http://dx.doi.org/10.1007/s11227-018-2327-4.

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40

Nilsson, Malin, I.-Ju Chen, Sebastian Lehmann, Vendula Maulerova, Kimberly A. Dick et Claes Thelander. « Parallel-Coupled Quantum Dots in InAs Nanowires ». Nano Letters 17, no 12 (décembre 2017) : 7847–52. http://dx.doi.org/10.1021/acs.nanolett.7b04090.

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41

Takagaki, Y., et K. Ploog. « Ballistic electron transmission in coupled parallel waveguides ». Physical Review B 49, no 3 (15 janvier 1994) : 1782–88. http://dx.doi.org/10.1103/physrevb.49.1782.

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42

Panzarini, G. « Coupled modes in parallel pillar microcavities : theory ». European Physical Journal B 14, no 4 (avril 2000) : 611–15. http://dx.doi.org/10.1007/s100510051069.

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43

Schwelb, Otto, et Istv�n Frigyes. « Parallel-coupled phase-matched multiring optical filters ». Microwave and Optical Technology Letters 44, no 6 (2005) : 536–40. http://dx.doi.org/10.1002/mop.20689.

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44

Rajeek, A. M., et A. Chakraborty. « Analysis of a wide compound slot-coupled parallel waveguide coupler and radiator ». IEEE Transactions on Microwave Theory and Techniques 43, no 4 (avril 1995) : 802–9. http://dx.doi.org/10.1109/22.375227.

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45

Chremmos, Ioannis, et Nikolaos Uzunoglu. « Propagation in a directional coupler of parallel microring coupled-resonator optical waveguides ». Optics Communications 281, no 12 (juin 2008) : 3381–89. http://dx.doi.org/10.1016/j.optcom.2008.02.023.

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46

Chen, Jian’en, Wei Zhang, Jun Liu et Wenhua Hu. « Vibration absorption of parallel-coupled nonlinear energy sink under shock and harmonic excitations ». Applied Mathematics and Mechanics 42, no 8 (31 juillet 2021) : 1135–54. http://dx.doi.org/10.1007/s10483-021-2757-6.

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AbstractNonlinear energy sink (NES) can passively absorb broadband energy from primary oscillators. Proper multiple NESs connected in parallel exhibit superior performance to single-degree-of-freedom (SDOF) NESs. In this work, a linear coupling spring is installed between two parallel NESs so as to expand the application scope of such vibration absorbers. The vibration absorption of the parallel and parallel-coupled NESs and the system response induced by the coupling spring are studied. The results show that the responses of the system exhibit a significant difference when the heavier cubic oscillators in the NESs have lower stiffness and the lighter cubic oscillators have higher stiffness. Moreover, the e±ciency of the parallel-coupled NES is higher for medium shocks but lower for small and large shocks than that of the parallel NESs. The parallel-coupled NES also shows superior performance for medium harmonic excitations until higher response branches are induced. The performance of the parallel-coupled NES and the SDOF NES is compared. It is found that, regardless of the chosen SDOF NES parameters, the performance of the parallel-coupled NES is similar or superior to that of the SDOF NES in the entire force range.
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47

Darwis, Fajri, Enjel Al Birr Rahayu, Sutrisno Sutrisno, Hanny Madiawati, Taufiqqurrachman Taufiqqurrachman, Arie Setiawan, Erry Dwi Kurniawan et Yusuf Nur Wijayanto. « Cross-Coupled Line Bandpass Filter Based on Modified Parallel-Coupled Line Structure ». Jurnal Elektronika dan Telekomunikasi 22, no 1 (31 août 2022) : 8. http://dx.doi.org/10.55981/jet.474.

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This paper presents a study of a narrow bandwidth of the bandpass filter with a cross-coupled line structure. This structure was designed to have a good filter selectivity with the transmission zeros and a simple design. Since the structure has a cross shape, cross-coupling between the resonators consequently occurs. This interferes with the passband of the filter. Optimization in the size of the coupled lines and transmission lines was done to minimize the interference. Rogers RT/duroid 5880 was used as a substrate to fabricate the bandpass filter to verify the proposed design. As a result, the fabricated cross-coupled line bandpass filter has an 80 MHz of 3 dB bandwidth with operating frequency ranges from 2.97 GHz to 3.05 GHz. The bandwidth is reduced by 20 % from the specification.It shows that the cross-coupled line structure can yield a narrow bandwidth. Based on the 3 dB bandwidth, the center frequency is shifted 0.33 % above the specification. Meanwhile, the return loss and insertion loss of the proposed bandpass filter successfully comply with the required specifications. In conclusion, the proposed bandpass filter can be applied to S-Band applications that require narrow bandwidth.
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48

Adeleye, Babasegun, et Salman Mohammed Jiddah. « Analysis of Parallel Architectures : SIMD, tightly-coupled MIMD, and loosely-coupled MIMD ». International Journal of Computer Trends and Technology 53, no 1 (25 novembre 2017) : 6–8. http://dx.doi.org/10.14445/22312803/ijctt-v53p102.

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49

FUJII, T., I. OHTA, T. KAWAI et Y. KOKUBO. « Parallel Coupled Microstrip Couplers Compensated with Periodic Floating-Conductors on Coupled Edges ». IEICE Transactions on Electronics E91-C, no 5 (1 mai 2008) : 780–87. http://dx.doi.org/10.1093/ietele/e91-c.5.780.

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Duyar, Mehmet, Volkan Akan, Erdem Yazgan et Mehmet Bayrak. « QUASI-static solutions of elliptical, cylindrical-coupled parallel coplanar waveguide, and coupled parallel coplanar waveguide with finite ground planes ». Microwave and Optical Technology Letters 49, no 7 (2007) : 1702–8. http://dx.doi.org/10.1002/mop.22540.

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