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Journal articles on the topic 'Self-encoded'

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

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1

Melkko, Samu, Jens Sobek, Greta Guarda, Jörg Scheuermann, Christoph E. Dumelin, and Dario Neri. "Encoded Self-Assembling Chemical Libraries." CHIMIA International Journal for Chemistry 59, no. 11 (November 1, 2005): 798–802. http://dx.doi.org/10.2533/000942905777675525.

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2

Melkko, Samu, Jörg Scheuermann, Christoph E. Dumelin, and Dario Neri. "Encoded self-assembling chemical libraries." Nature Biotechnology 22, no. 5 (April 18, 2004): 568–74. http://dx.doi.org/10.1038/nbt961.

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3

Bos, S. P. "The polarization-encoded self-coherent camera." Astronomy & Astrophysics 646 (February 2021): A177. http://dx.doi.org/10.1051/0004-6361/202039569.

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Context. The exploration of circumstellar environments by means of direct imaging to search for Earth-like exoplanets is one of the challenges of modern astronomy. One of the current limitations are evolving non-common path aberrations (NCPA) that originate from optics downstream of the main wavefront sensor. Measuring these NCPA with the science camera during observations is the preferred solution for minimizing the non-common path and maximizing the science duty cycle. The self-coherent camera (SCC) is an integrated coronagraph and focal-plane wavefront sensor that generates wavefront information-encoding Fizeau fringes in the focal plane by adding a reference hole (RH) in the Lyot stop. However, the RH is located at least 1.5 pupil diameters away from the pupil center, which requires the system to have large optic sizes and results in low photon fluxes in the RH. Aims. Here, we aim to show that by featuring a polarizer in the RH and adding a polarizing beamsplitter downstream of the Lyot stop, the RH can be placed right next to the pupil. This greatly increases the photon flux in the RH and relaxes the requirements on the optics size due to a smaller beam footprint. We refer to this new variant of the SCC as the polarization-encoded self-coherent camera (PESCC). Methods. We study the performance of the PESCC analytically and numerically, and compare it, where relevant, to the SCC. We look into the specific noise sources that are relevant for the PESCC and quantify their effect on wavefront sensing and control (WFSC). Results. We show analytically that the PESCC relaxes the requirements on the focal-plane sampling and spectral resolution with respect to the SCC by a factor of 2 and 3.5, respectively. Furthermore, we find via our numerical simulations that the PESCC has effectively access to ∼16 times more photons, which improves the sensitivity of the wavefront sensing by a factor of ∼4. We identify the need for the parameters related to the instrumental polarization and differential aberrations between the beams to be tightly controlled – otherwise, they limit the instrument’s performance. We also show that without additional measurements, the RH point-spread function (PSF) can be calibrated using PESCC images, enabling coherent differential imaging (CDI) as a contrast-enhancing post-processing technique for every observation. In idealized simulations (clear aperture, charge two vortex coronagraph, perfect DM, no noise sources other than phase and amplitude aberrations) and in circumstances similar to those of space-based systems, we show that WFSC combined with CDI can achieve a 1σ raw contrast of ∼3 × 10−11 − 8 × 10−11 between 1 and 18 λ/D. Conclusions. The PESCC is a powerful, new focal-plane wavefront sensor that can be relatively easily integrated into existing ground-based and future space-based high-contrast imaging instruments.
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4

Jang, Won Mee, Lim Nguyen, and Michael Hempel. "Self-encoded spread spectrum and Turbo coding." Journal of Communications and Networks 6, no. 1 (March 2004): 9–18. http://dx.doi.org/10.1109/jcn.2004.6596991.

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5

Hua, K., L. Nguyen, and W. M. Jang. "Synchronisation of self-encoded spread spectrum system." Electronics Letters 44, no. 12 (2008): 749. http://dx.doi.org/10.1049/el:20083457.

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6

Bravo-Vasquez, J. Pablo, Ramon A. Alvarez-Puebla, and Hicham Fenniri. "Self-encoded polymer beads for microarray technologies." Sensors and Actuators B: Chemical 125, no. 2 (August 2007): 357–59. http://dx.doi.org/10.1016/j.snb.2007.03.014.

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7

Wang, Chi-Chung, and Teng-Yi Huang. "Self-gated PROPELLER-encoded cine cardiac imaging." International Journal of Cardiovascular Imaging 28, no. 6 (November 1, 2011): 1477–85. http://dx.doi.org/10.1007/s10554-011-9969-0.

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8

HUA, Kun, Won Mee JANG, and Lim NGUYEN. "Cooperative Self Encoded Spread Spectrum in Fading Channels." International Journal of Communications, Network and System Sciences 02, no. 02 (2009): 91–96. http://dx.doi.org/10.4236/ijcns.2009.22011.

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9

Ridgley, D. M., B. G. Freedman, P. W. Lee, and J. R. Barone. "Genetically encoded self-assembly of large amyloid fibers." Biomater. Sci. 2, no. 4 (2014): 560–66. http://dx.doi.org/10.1039/c3bm60223k.

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10

KIM, Y. S., W. M. JANG, and L. NGUYEN. "Self-Encoded TH-PPM UWB System with Iterative Detection." IEICE Transactions on Communications E90-B, no. 1 (January 1, 2007): 63–68. http://dx.doi.org/10.1093/ietcom/e90-b.1.63.

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11

Lin, Chenxiang, Ralf Jungmann, Andrew M. Leifer, Chao Li, Daniel Levner, George M. Church, William M. Shih, and Peng Yin. "Submicrometre geometrically encoded fluorescent barcodes self-assembled from DNA." Nature Chemistry 4, no. 10 (September 24, 2012): 832–39. http://dx.doi.org/10.1038/nchem.1451.

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12

Lou, Shaofeng, Xinmou Wang, Zhilin Yu, and Linqi Shi. "Peptide Tectonics: Encoded Structural Complementarity Dictates Programmable Self‐Assembly." Advanced Science 6, no. 13 (April 29, 2019): 1802043. http://dx.doi.org/10.1002/advs.201802043.

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13

Fitzgerald, Jessica E., Jintao Zhu, Juan Pablo Bravo-Vasquez, and Hicham Fenniri. "Cross-reactive, self-encoded polymer film arrays for sensor applications." RSC Advances 6, no. 86 (2016): 82616–24. http://dx.doi.org/10.1039/c6ra13874h.

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14

Yao, Yuxing, James T. Waters, Anna V. Shneidman, Jiaxi Cui, Xiaoguang Wang, Nikolaj K. Mandsberg, Shucong Li, Anna C. Balazs, and Joanna Aizenberg. "Multiresponsive polymeric microstructures with encoded predetermined and self-regulated deformability." Proceedings of the National Academy of Sciences 115, no. 51 (December 4, 2018): 12950–55. http://dx.doi.org/10.1073/pnas.1811823115.

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Dynamic functions of biological organisms often rely on arrays of actively deformable microstructures undergoing a nearly unlimited repertoire of predetermined and self-regulated reconfigurations and motions, most of which are difficult or not yet possible to achieve in synthetic systems. Here, we introduce stimuli-responsive microstructures based on liquid-crystalline elastomers (LCEs) that display a broad range of hierarchical, even mechanically unfavored deformation behaviors. By polymerizing molded prepolymer in patterned magnetic fields, we encode any desired uniform mesogen orientation into the resulting LCE microstructures, which is then read out upon heating above the nematic–isotropic transition temperature (TN–I) as a specific prescribed deformation, such as twisting, in- and out-of-plane tilting, stretching, or contraction. By further introducing light-responsive moieties, we demonstrate unique multifunctionality of the LCEs capable of three actuation modes: self-regulated bending toward the light source at T < TN–I, magnetic-field–encoded predetermined deformation at T > TN–I, and direction-dependent self-regulated motion toward the light at T > TN–I. We develop approaches to create patterned arrays of microstructures with encoded multiple area-specific deformation modes and show their functions in responsive release of cargo, image concealment, and light-controlled reflectivity. We foresee that this platform can be widely applied in switchable adhesion, information encryption, autonomous antennae, energy harvesting, soft robotics, and smart buildings.
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15

Jang, W. M. "Timing accuracy of self-encoded spread spectrum navigation with communication." IET Radar, Sonar & Navigation 5, no. 1 (2011): 1. http://dx.doi.org/10.1049/iet-rsn.2009.0234.

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16

Duraisamy, Poomathi, Won Mee Jang, and Lim Nguyen. "Multipath error mitigation using self‐encoded spread spectrum for navigation." IET Radar, Sonar & Navigation 7, no. 4 (April 2013): 433–42. http://dx.doi.org/10.1049/iet-rsn.2012.0216.

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17

Hua, Kun, and Wei Wang. "High security self-encoded spread spectrum watermarking using genetic algorithms." Telecommunication Systems 60, no. 1 (December 11, 2014): 143–48. http://dx.doi.org/10.1007/s11235-014-9928-x.

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18

Praetorius, Florian, and Hendrik Dietz. "Self-assembly of genetically encoded DNA-protein hybrid nanoscale shapes." Science 355, no. 6331 (March 23, 2017): eaam5488. http://dx.doi.org/10.1126/science.aam5488.

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19

Garfinkel, David J., Jessica M. Tucker, Agniva Saha, Yuri Nishida, Katarzyna Pachulska-Wieczorek, Leszek Błaszczyk, and Katarzyna J. Purzycka. "A self-encoded capsid derivative restricts Ty1 retrotransposition in Saccharomyces." Current Genetics 62, no. 2 (December 9, 2015): 321–29. http://dx.doi.org/10.1007/s00294-015-0550-6.

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20

Kita, Hiroshi, Tomoaki Matsuura, Takeshi Sunami, Kazufumi Hosoda, Norikazu Ichihashi, Koji Tsukada, Itaru Urabe, and Tetsuya Yomo. "Replication of Genetic Information with Self-Encoded Replicase in Liposomes." ChemBioChem 9, no. 15 (October 13, 2008): 2403–10. http://dx.doi.org/10.1002/cbic.200800360.

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21

FORSDYKE, D. R. "ENTROPY-DRIVEN PROTEIN SELF-AGGREGATION AS THE BASIS FOR SELF/NOT-SELF DISCRIMINATION IN THE CROWDED CYTOSOL." Journal of Biological Systems 03, no. 01 (March 1995): 273–87. http://dx.doi.org/10.1142/s0218339095000265.

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Cytotoxic T cells recognize cell surface complexes of MHC class I proteins with peptides derived from proteins synthesized within the recognized cell. A mechanism permitting some intracellular discrimination between self proteins and not-self proteins (encoded by a foreign species) would allow the preferential loading of MHC proteins with peptides derived from not-self proteins. This would decrease competition with peptides derived from self proteins and decrease gaps in the T cell repertoire. A possible mechanism has been derived from studies of the specificity of self-aggregation of erythrocytes and of virus coat protein. It is postulated that genes whose products occupy a common cytosol have co-evolved such that product concentrations are fine-tuned to a maximum consistent with avoiding self-aggregation. Cytosolic proteins collectively generate a pressure tending to drive protein molecules into self-aggregates. Each individual protein species both contributes to, and is influenced by, this pressure. The aggregation involves a liberation of bound water and an increase in entropy. The concentrations of proteins encoded by viral genes (not-self) readily exceed the solubility limits imposed by the crowded host cytosol. This leads to their preferential degradation to peptides which associate with MHC proteins. The intracellular and extracellular self/not-self discrimination systems complement each other to ensure that there is no immunological reaction against normal self tissue components.
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22

Schickel, Jean-Nicolas, Salomé Glauzy, Yen-Shing Ng, Nicolas Chamberlain, Christopher Massad, Isabelle Isnardi, Nathan Katz, et al. "Self-reactive VH4-34–expressing IgG B cells recognize commensal bacteria." Journal of Experimental Medicine 214, no. 7 (May 12, 2017): 1991–2003. http://dx.doi.org/10.1084/jem.20160201.

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The germline immunoglobulin (Ig) variable heavy chain 4–34 (VH4-34) gene segment encodes in humans intrinsically self-reactive antibodies that recognize I/i carbohydrates expressed by erythrocytes with a specific motif in their framework region 1 (FWR1). VH4-34–expressing clones are common in the naive B cell repertoire but are rarely found in IgG memory B cells from healthy individuals. In contrast, CD27+IgG+ B cells from patients genetically deficient for IRAK4 or MYD88, which mediate the function of Toll-like receptors (TLRs) except TLR3, contained VH4-34–expressing clones and showed decreased somatic hypermutation frequencies. In addition, VH4-34–encoded IgGs from IRAK4- and MYD88-deficient patients often displayed an unmutated FWR1 motif, revealing that these antibodies still recognize I/i antigens, whereas their healthy donor counterparts harbored FWR1 mutations abolishing self-reactivity. However, this paradoxical self-reactivity correlated with these VH4-34–encoded IgG clones binding commensal bacteria antigens. Hence, B cells expressing germline-encoded self-reactive VH4-34 antibodies may represent an innate-like B cell population specialized in the containment of commensal bacteria when gut barriers are breached.
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23

Liang, Yuting, Di Xiang, Ying Hou, Guangshe Li, Shouhua Feng, and Ming Yang. "Size-encoded hierarchical self-assembly of nanoparticles into chains and tubules." Journal of Colloid and Interface Science 604 (December 2021): 866–75. http://dx.doi.org/10.1016/j.jcis.2021.07.047.

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24

Duraisamy, Poomathi, and Lim Nguyen. "Self-encoded spread spectrum with iterative detection under pulsed-noise jamming." Journal of Communications and Networks 15, no. 3 (June 2013): 276–82. http://dx.doi.org/10.1109/jcn.2013.000050.

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25

Sohm, Philip. "Palettes as Signatures and Encoded Identities in Early-Modern Self-Portraits." Art History 40, no. 5 (May 9, 2017): 994–1025. http://dx.doi.org/10.1111/1467-8365.12291.

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26

Voelker, Alden E., and Rajesh Viswanathan. "Self-Catalyzed Immobilization of GST-Fusion Proteins for Genome-Encoded Biochips." Bioconjugate Chemistry 24, no. 8 (July 31, 2013): 1295–301. http://dx.doi.org/10.1021/bc400128g.

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27

Forman, Christoph, Murat Aksoy, Joachim Hornegger, and Roland Bammer. "Self-encoded marker for optical prospective head motion correction in MRI." Medical Image Analysis 15, no. 5 (October 2011): 708–19. http://dx.doi.org/10.1016/j.media.2011.05.018.

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28

Fan, Yuqi, Qiguo Xing, Jiaxing Zhang, Yuefei Wang, Yaoyu Liang, Wei Qi, Rongxin Su, and Zhimin He. "Self-Assembly of Peptide Chiral Nanostructures with Sequence-Encoded Enantioseparation Capability." Langmuir 36, no. 35 (August 12, 2020): 10361–70. http://dx.doi.org/10.1021/acs.langmuir.0c01338.

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29

Deng, Zhaoxiang, Ye Tian, Seung-Hyun Lee, Alexander E. Ribbe, and Chengde Mao. "DNA-Encoded Self-Assembly of Gold Nanoparticles into One-Dimensional Arrays." Angewandte Chemie International Edition 44, no. 23 (June 6, 2005): 3582–85. http://dx.doi.org/10.1002/anie.200463096.

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30

Deng, Zhaoxiang, Ye Tian, Seung-Hyun Lee, Alexander E. Ribbe, and Chengde Mao. "DNA-Encoded Self-Assembly of Gold Nanoparticles into One-Dimensional Arrays." Angewandte Chemie 117, no. 23 (June 6, 2005): 3648–51. http://dx.doi.org/10.1002/ange.200463096.

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31

Glass, David S., and Ingmar H. Riedel-Kruse. "A Genetically Encoded Toolbox of Orthogonal Adhesins for Bacterial Self-Assembly." Biophysical Journal 114, no. 3 (February 2018): 666a. http://dx.doi.org/10.1016/j.bpj.2017.11.3594.

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32

Turner, David A., Peter Baillie-Johnson, and Alfonso Martinez Arias. "Organoids and the genetically encoded self-assembly of embryonic stem cells." BioEssays 38, no. 2 (December 15, 2015): 181–91. http://dx.doi.org/10.1002/bies.201500111.

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33

Song, Erqun, Weiye Han, Hongyan Xu, Yunfei Jiang, Dan Cheng, Yang Song, and Mark T. Swihart. "Magnetically Encoded Luminescent Composite Nanoparticles through Layer-by-Layer Self-Assembly." Chemistry - A European Journal 20, no. 45 (September 26, 2014): 14642–49. http://dx.doi.org/10.1002/chem.201403699.

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34

Cao, Cheng, Peng Zhao, Ze Li, Zitian Chen, Yanyi Huang, Yu Bai, and Xiaoyu Li. "A DNA-templated synthesis of encoded small molecules by DNA self-assembly." Chem. Commun. 50, no. 75 (2014): 10997–99. http://dx.doi.org/10.1039/c4cc03380a.

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35

Sethi, Dhruv K., David A. Schubert, Anne-Kathrin Anders, Annie Heroux, Daniel A. Bonsor, Chantz P. Thomas, Eric J. Sundberg, Jason Pyrdol, and Kai W. Wucherpfennig. "A highly tilted binding mode by a self-reactive T cell receptor results in altered engagement of peptide and MHC." Journal of Experimental Medicine 208, no. 1 (January 3, 2011): 91–102. http://dx.doi.org/10.1084/jem.20100725.

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Self-reactive T cells that escape elimination in the thymus can cause autoimmune pathology, and it is therefore important to understand the structural mechanisms of self-antigen recognition. We report the crystal structure of a T cell receptor (TCR) from a patient with relapsing-remitting multiple sclerosis that engages its self-peptide–major histocompatibility complex (pMHC) ligand in an unusual manner. The TCR is bound in a highly tilted orientation that prevents interaction of the TCR-α chain with the MHC class II β chain helix. In this structure, only a single germline-encoded TCR loop engages the MHC protein, whereas in most other TCR-pMHC structures all four germline-encoded TCR loops bind to the MHC helices. The tilted binding mode also prevents peptide contacts by the short complementarity-determining region (CDR) 3β loop, and interactions that contribute to peptide side chain specificity are focused on the CDR3α loop. This structure is the first example in which only a single germline-encoded TCR loop contacts the MHC helices. Furthermore, the reduced interaction surface with the peptide may facilitate TCR cross-reactivity. The structural alterations in the trimolecular complex are distinct from previously characterized self-reactive TCRs, indicating that there are multiple unusual ways for self-reactive TCRs to bind their pMHC ligand.
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36

Matysiak, Stefan, Klaus Hellmuth, Afaf H. El-Sagheer, Arun Shivalingam, Yavuz Ariyurek, Marco de Jong, Martine J. Hollestelle, Ruud Out, and Tom Brown. "Searching for avidity by chemical ligation of combinatorially self-assembled DNA-encoded ligand libraries." Organic & Biomolecular Chemistry 16, no. 1 (2018): 48–52. http://dx.doi.org/10.1039/c7ob02119d.

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37

Kim, Youn Seok, Won Mee Jang, Yan Kong, and Lim Nguyen. "Chip-interleaved self-encoded multiple access with iterative detection in fading channels." Journal of Communications and Networks 9, no. 1 (March 2007): 50–55. http://dx.doi.org/10.1109/jcn.2007.6182813.

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38

Pinto, Yariv Y., John D. Le, Nadrian C. Seeman, Karin Musier-Forsyth, T. Andrew Taton, and Richard A. Kiehl. "Sequence-Encoded Self-Assembly of Multiple-Nanocomponent Arrays by 2D DNA Scaffolding." Nano Letters 5, no. 12 (December 2005): 2399–402. http://dx.doi.org/10.1021/nl0515495.

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39

Liang, Xiuzuo, Xiaoyu Pang, Daquan Cao, Xuanhou hu, Daowu Li, Zhiming Zhang, Shuangquan Liu, et al. "Self-supporting design of a time-encoded aperture, gamma-neutron imaging system." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 951 (January 2020): 162964. http://dx.doi.org/10.1016/j.nima.2019.162964.

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40

Lowensohn, Janna, Alexander Hensley, Michael Perlow-Zelman, and W. Benjamin Rogers. "Self-Assembly and Crystallization of DNA-Coated Colloids via Linker-Encoded Interactions." Langmuir 36, no. 25 (February 4, 2020): 7100–7108. http://dx.doi.org/10.1021/acs.langmuir.9b03391.

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41

Ma, Shichuan, Lim Nguyen, Won Mee Jang, and Yaoqing (Lamar) Yang. "MIMO Self-Encoded Spread Spectrum with Iterative Detection over Rayleigh Fading Channels." Journal of Electrical and Computer Engineering 2010 (2010): 1–9. http://dx.doi.org/10.1155/2010/492079.

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Self-encoded spread spectrum (SESS) is a novel communication technique that derives its spreading code from the randomness of the source stream rather than using conventional pseudorandom noise (PN) code. In this paper, we propose to incorporate SESS in multiple-input multiple-output (MIMO) systems as a means to combat against fading effects in wireless channels. Orthogonal space-time block-coded MIMO technique is employed to achieve spatial diversity, and the inherent temporal diversity in SESS modulation is exploited with iterative detection. Simulation results demonstrate that MIMO-SESS can effectively mitigate the channel fading effect such that the system can achieve a bit error rate of with very low signal-to-noise ratio, from 3.3 dB for a antenna configuration to just less than 0 dB for a configuration under Rayleigh fading. The performance improvement for the case is as much as 6.7 dB when compared to an MIMO PN-coded spread spectrum system.
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42

Stellwagen, A. E. "Avoiding self: two Tn7-encoded proteins mediate target immunity in Tn7 transposition." EMBO Journal 16, no. 22 (November 15, 1997): 6823–34. http://dx.doi.org/10.1093/emboj/16.22.6823.

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43

Chen, Feiyu, Valentina Taviani, Jonathan I. Tamir, Joseph Y. Cheng, Tao Zhang, Qiong Song, Brian A. Hargreaves, John M. Pauly, and Shreyas S. Vasanawala. "Self‐Calibrating Wave‐Encoded Variable‐Density Single‐Shot Fast Spin Echo Imaging." Journal of Magnetic Resonance Imaging 47, no. 4 (September 14, 2017): 954–66. http://dx.doi.org/10.1002/jmri.25853.

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44

Song, Erqun, Weiye Han, Hongyan Xu, Yunfei Jiang, Dan Cheng, Yang Song, and Mark T. Swihart. "Frontispiece: Magnetically Encoded Luminescent Composite Nanoparticles through Layer-by-Layer Self-Assembly." Chemistry - A European Journal 20, no. 45 (October 23, 2014): n/a. http://dx.doi.org/10.1002/chem.201484562.

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45

Cuccia, Louis A., Jean-Marie Lehn, Jean-Claude Homo, and Marc Schmutz. "Encoded Helical Self-Organization and Self-Assembly into Helical Fibers of an Oligoheterocyclic Pyridine - Pyridazine Molecular Strand." Angewandte Chemie International Edition 39, no. 1 (January 3, 2000): 233–37. http://dx.doi.org/10.1002/(sici)1521-3773(20000103)39:1<233::aid-anie233>3.0.co;2-r.

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46

Cuccia, Louis A., Jean-Marie Lehn, Jean-Claude Homo, and Marc Schmutz. "Encoded Helical Self-Organization and Self-Assembly into Helical Fibers of an Oligoheterocyclic Pyridine – Pyridazine Molecular Strand." Angewandte Chemie 112, no. 1 (January 3, 2000): 239–43. http://dx.doi.org/10.1002/(sici)1521-3757(20000103)112:1<239::aid-ange239>3.0.co;2-n.

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47

Zhang, Jing, Ru Wang, Zhiyuan Luo, Dongmei Jia, Haomin Chen, Qinjie Xiao, Pengfei Zhang, Xiaolin Pei, and Anming Wang. "Controlled chemical assembly of enzymes in cell lysate enabled by genetic-encoded nonstandard amino acids." Materials Chemistry Frontiers 6, no. 2 (2022): 182–93. http://dx.doi.org/10.1039/d1qm01285a.

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48

Mizuuchi, Ryo, and Norikazu Ichihashi. "Translation-coupled RNA replication and parasitic replicators in membrane-free compartments." Chemical Communications 56, no. 87 (2020): 13453–56. http://dx.doi.org/10.1039/d0cc06606k.

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49

KOCAK, TASKIN, GEORGE R. HARRIS, and RONALD F. DEMARA. "SELF-TIMED ARCHITECTURE FOR MASKED SUCCESSIVE APPROXIMATION ANALOG-TO-DIGITAL CONVERSION." Journal of Circuits, Systems and Computers 16, no. 01 (February 2007): 1–14. http://dx.doi.org/10.1142/s0218126607003551.

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In this paper, a novel architecture for self-timed analog-to-digital conversion is presented and designed using the NULL Convention Logic (NCL) paradigm. This analog-to-digital converter (ADC) employs successive approximation and a one-hot encoded masking technique to digitize analog signals. The architecture scales readily to any given resolution by utilizing the one-hot encoded scheme to permit identical logical components for each bit of resolution. The four-bit configuration of the proposed design has been implemented and assessed via simulation in 0.18-μm CMOS technology. Furthermore, the ADC may be interfaced with either synchronous or four-phase asynchronous digital systems.
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50

Carson, Nicole, R. Shayna Rosenbaum, Morris Moscovitch, and Kelly J. Murphy. "Self-Reference Effect and Self-Reference Recollection Effect for Trait Adjectives in Amnestic Mild Cognitive Impairment." Journal of the International Neuropsychological Society 24, no. 8 (August 2, 2018): 821–32. http://dx.doi.org/10.1017/s1355617718000395.

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AbstractObjectives: The self-reference effect (SRE), enhanced memory for self-related information, has been studied in healthy young and older adults but has had little investigation in people with age-related memory disorders, such as amnestic mild cognitive impairment (aMCI). Self-referential encoding may help to improve episodic memory in aMCI. Additionally, self-referential processing has been shown to benefit recollection, the vivid re-experiencing of past events, a phenomenon that has been termed the self-reference recollection effect (SRRE; Conway & Dewhurst, 1995). Furthermore, it remains unclear whether the valence of stimuli influences the appearance of the SRE and SRRE. Methods: The current study investigated the SRE and SRRE for trait adjective words in 20 individuals with aMCI and 30 healthy older adult controls. Ninety trait adjective words were allocated to self-reference, semantic, or structural encoding conditions; memory was later tested using a recognition test. Results: While healthy older adults showed a SRE, individuals with aMCI did not benefit from self-referential encoding over and above that of semantic encoding (an effect of “deep encoding”). A similar pattern was apparent for the SRRE; healthy controls showed enhanced recollection for words encoded in the self-reference condition, while the aMCI group did not show specific benefit to recollection for self-referenced over semantically encoded items. No effects of valence were found. Conclusions: These results indicate that while memory for trait adjective words can be improved in aMCI with deep encoding strategies (whether self-reference or semantic), self-referencing does not provide an additional benefit. (JINS, 2018, 24, 821–832)
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