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Journal articles on the topic 'Multi-mechanism'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

POPOV, I. P. "MULTI–INERT OSCILLATORY MECHANISM." Fundamental and Applied Problems of Engineering and Technology 2 (2020): 19–25. http://dx.doi.org/10.33979/2073-7408-2020-340-2-19-25.

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A mechanical oscillatory system with homogeneous elements, namely, with n massive loads (multi– inert oscillator), is considered. The possibility of the appearance of free harmonic oscillations of loads in such a system is shown. Unlike the classical spring pendulum, the oscillations of which are due to the mutual conversion of the kinetic energy of the load into the potential energy of the spring, in a multi–inert oscillator, the oscillations are due to the mutual conversion of only the kinetic energies of the goods. In this case, the acceleration of some loads occurs due to the braking of others. A feature of the multi–inert oscillator is that its free oscillation frequency is not fixed and is determined mainly by the initial conditions. This feature can be very useful for technical applications, for example, for self–neutralization of mechanical reactive (inertial) power in oscillatory systems.
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2

V, Amrutha Mohanan K., Hema E. K, and Monisree S. Audline Beena S. P. "Raspberry Pibot Manipulated with Skid-Steered Mechanism for Multi-Environment Surveillance." International Journal of Trend in Scientific Research and Development Volume-2, Issue-3 (April 30, 2018): 1483–91. http://dx.doi.org/10.31142/ijtsrd11240.

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3

Arata, Jumpei, Yuki Kamura, Susumu Oguri, Ryu Nakadate, Kazuo Kiguchi, and Makoto Hashizume. "Multi-DOF Robotic Forceps for Laparoscopy using in-frame spring mechanism." Abstracts of the international conference on advanced mechatronics : toward evolutionary fusion of IT and mechatronics : ICAM 2015.6 (2015): 62–63. http://dx.doi.org/10.1299/jsmeicam.2015.6.62.

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4

LI Xiao-feng, 李晓峰, 刘如彪 LIU Ru-biao, and 赵学锋 ZHAO Xue-feng. "Photoemission Mechanism of Multi-alkali Cathode." ACTA PHOTONICA SINICA 40, no. 9 (2011): 1438–41. http://dx.doi.org/10.3788/gzxb20114009.1438.

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5

Jeridi, M., H. Chouchene, V. Keryvin, and K. Saï. "Multi-mechanism modeling of amorphous polymers." Mechanics Research Communications 56 (March 2014): 136–42. http://dx.doi.org/10.1016/j.mechrescom.2014.01.003.

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6

Gendler, Alexander, Avi Mendelson, and Yitzhak Birk. "A PAB-Based Multi-Prefetcher Mechanism." International Journal of Parallel Programming 34, no. 2 (April 2006): 171–88. http://dx.doi.org/10.1007/s10766-006-0006-1.

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7

Xiao, Yingchun. "A multi-mechanism damage coupling model." International Journal of Fatigue 26, no. 11 (November 2004): 1241–50. http://dx.doi.org/10.1016/j.ijfatigue.2004.02.004.

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8

Wu, Danyang, Zhanxuan Hu, Feiping Nie, Rong Wang, Hui Yang, and Xuelong Li. "Multi-view clustering with interactive mechanism." Neurocomputing 449 (August 2021): 378–88. http://dx.doi.org/10.1016/j.neucom.2021.03.065.

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9

Nagamani, Tadisetty, and SD Nagul Meera Sayyed. "Adaptive Conflict Resolution Mechanism for Multi-party Privacy Conflicts Resolving in Social Media." International Journal of Trend in Scientific Research and Development Volume-2, Issue-3 (April 30, 2018): 1179–85. http://dx.doi.org/10.31142/ijtsrd11367.

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10

Kaminoh, Yoshiroh, Hiroshi Kamaya, Chikara Tashiro, and Issaku Ueda. "Multi-Unit and Multi-Path System (MUMPS) of Anesthesia Mechanism." Anesthesiology 96, Sup 2 (September 2002): A736. http://dx.doi.org/10.1097/00000542-200209002-00736.

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11

Al-Hmouz, Ahmad, Ghazanfar Latif, Jaafar Alghazo, and Rami Al-Hmouz. "Enhanced Numeral Recognition for Handwritten Multi-language Numerals Using Fuzzy Set-Based Decision Mechanism." International Journal of Machine Learning and Computing 10, no. 1 (January 2020): 99–107. http://dx.doi.org/10.18178/ijmlc.2020.10.1.905.

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12

Shuo Li, Gaochao Xu, Xiaolin Qiao, and Feng Wu. "Multi-dimension and Multi-level Associated Cache Partitioning Mechanism in CMP." International Journal of Advancements in Computing Technology 4, no. 10 (June 30, 2012): 337–45. http://dx.doi.org/10.4156/ijact.vol4.issue10.40.

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13

Guo, Shao-yong, Lan-lan Rui, Xue-song Qiu, and Luo-ming Meng. "Service-oriented Multi-devices Dynamic Cooperation Mechanism." Journal of Electronics & Information Technology 34, no. 7 (July 6, 2013): 1703–8. http://dx.doi.org/10.3724/sp.j.1146.2011.01293.

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14

Wang, Ke She, and Dong Wang. "Structure Design of Multi-Purpose Elevation Mechanism." Advanced Materials Research 201-203 (February 2011): 1416–19. http://dx.doi.org/10.4028/www.scientific.net/amr.201-203.1416.

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Now a days, high construction are growing up just as the bamboo shoots after rain.Earthquake,fire and other disasters are running into people's eyes because of group of deaths and wounds,it teaches people to pay more attention to self-help in an emergency,especially when they are at home in the air.My design can be used as automatic lift racks in peacetime,slow down device in an emergency.It can bring a resistance form against the movement which is caused by the gravity of people by compressing spring in it,lifting victims down to safe place slowly .
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15

Sallach, David L., Michael J. North, and W. A. Rivera. "Polar Hermeneutics: A Multi-faceted Decision Mechanism." Procedia Computer Science 9 (2012): 1426–33. http://dx.doi.org/10.1016/j.procs.2012.04.157.

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16

Kang, T. G., Y. Choi, S. W. Kim, I. S. Choi, Y, K. Kim, H. J. Jun, O. Y. Yang, and K. S. Jang. "Analysis on Mechanism of Multi-Planting Machine." Journal of the Korean Society of International Agricultue 27, no. 4 (November 30, 2015): 455–59. http://dx.doi.org/10.12719/ksia.2015.27.4.455.

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17

Sunder, R., NE Ashbaugh, WJ Porter, and AH Rosenberger. "Multi-Mechanism Synergy in Variable-Amplitude Fatigue." Journal of ASTM International 1, no. 10 (2004): 19065. http://dx.doi.org/10.1520/jai19065.

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18

Xu, Mingliang, Mingyuan Li, Weiwei Xu, Zhigang Deng, Yin Yang, and Kun Zhou. "Interactive mechanism modeling from multi-view images." ACM Transactions on Graphics 35, no. 6 (November 11, 2016): 1–13. http://dx.doi.org/10.1145/2980179.2982425.

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19

Margulis, M. A. "On the mechanism of multi-bubble sonoluminescence." Russian Journal of Physical Chemistry 80, no. 10 (October 2006): 1698–702. http://dx.doi.org/10.1134/s003602440610027x.

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20

Hammerling, Gunter J., Gunther Schonrich, Iris Ferber, and Bernd Arnold. "Peripheral Tolerance as a Multi-Step Mechanism." Immunological Reviews 133, no. 1 (June 1993): 93–104. http://dx.doi.org/10.1111/j.1600-065x.1993.tb01511.x.

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21

Ehlers, Lars. "Choosing wisely: the natural multi-bidding mechanism." Economic Theory 39, no. 3 (March 26, 2008): 505–12. http://dx.doi.org/10.1007/s00199-008-0355-7.

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22

Zhang, Z. H., F. F. Wang, and X. F. Duan. "Formation mechanism of pseudoperiodical multi-twinning nanostructures." Journal of Crystal Growth 303, no. 2 (May 2007): 612–15. http://dx.doi.org/10.1016/j.jcrysgro.2006.12.043.

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23

Anandarajah, A. "Multi-mechanism anisotropic model for granular materials." International Journal of Plasticity 24, no. 5 (May 2008): 804–46. http://dx.doi.org/10.1016/j.ijplas.2007.07.012.

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24

Jia, Xin-Chun, Shuangshuang Gao, Xiu You, and Bin Li. "Output consensus of heterogeneous multi-agent systems with a multi-sensor multi-rate sampling mechanism." Journal of the Franklin Institute 357, no. 17 (November 2020): 12640–69. http://dx.doi.org/10.1016/j.jfranklin.2020.08.022.

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25

KAMBAYASHI, Keita, Akari TSUDA, Nozomu KOGISO, Takayuki YAMADA, Kazuhiro IZUI, Shinji NISHIWAKI, and Masato TAMAYAMA. "Proposal of Multi-layered Compliant Mechanism as Internal Mechanism of Morphing Wing." AEROSPACE TECHNOLOGY JAPAN, THE JAPAN SOCIETY FOR AERONAUTICAL AND SPACE SCIENCES 18 (2019): 151–59. http://dx.doi.org/10.2322/astj.jsass-d-18-00062.

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26

WANG, Kundong, and Shugen MA. "2A1-K11 A Novel Snake-like Robot with Multi Gaits(Environmentally-Adapted Mechanism and Control)." Proceedings of JSME annual Conference on Robotics and Mechatronics (Robomec) 2011 (2011): _2A1—K11_1—_2A1—K11_4. http://dx.doi.org/10.1299/jsmermd.2011._2a1-k11_1.

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27

Deutschmann, Bastian, Concepción A. Monje, and Christian Ott. "Multi-input multi-output fractional-order control of an underactuated continuum mechanism." International Journal of Advanced Robotic Systems 17, no. 6 (November 1, 2020): 172988142096957. http://dx.doi.org/10.1177/1729881420969578.

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This article treats the design and implementation of a multi-input multi-output fractional-order controller for a nonlinear system composed of a tendon-driven continuum mechanism. As the continuum can be deformed along all Cartesian directions, it is suitable for the application as a flexible neck of a humanoid robot. In this work, a model-based control approach is proposed to control the position of the head, that is, the rigid body attached to the top of the continuum mechanism. Herein, the system is modeled as a rigid body on top of a nonlinear Cartesian spring, with an experimentally obtained deflection characteristic which provides a simple and real-time capable model. By nonlinear feedback, the output dynamics are linearized and decoupled, which enables the design of single-input single-output fractional-order controllers for the regulation of each output independently. The design of a fractional-order [Formula: see text] controller is discussed to incorporate robustness and a fast transient response. The proposed control approach is tested in several experiments on the real system.
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28

Fang, H. L. "A state-dependent multi-mechanism model for sands." Géotechnique 53, no. 4 (May 2003): 407–20. http://dx.doi.org/10.1680/geot.2003.53.4.407.

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29

Li, Xu, Mingming Sun, and Ping Li. "Multi-Agent Discussion Mechanism for Natural Language Generation." Proceedings of the AAAI Conference on Artificial Intelligence 33 (July 17, 2019): 6096–103. http://dx.doi.org/10.1609/aaai.v33i01.33016096.

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We introduce the discussion mechanism into the multiagent communicating encoder-decoder architecture for Natural Language Generation (NLG) tasks and prove that by applying the discussion mechanism, the communication between agents becomes more effective. Generally speaking, an encoder-decoder architecture predicts target-sequence word by word in several time steps. At each time step of prediction, agents with the discussion mechanism predict the target word after several discussion steps. In the first step of discussion, agents make their choice independently and express their decision to other agents. In the next discussion step, agents collect other agents’ decision to update their own decisions, then express the updated decisions to others again. After several iterations, the agents make their final decision based on a well-communicated situation. The benefit of the discussion mechanism is that multiple encoders can be designed as different structures to fit the specified input or to fetch different representations of inputs.We train and evaluate the discussion mechanism on Table to Text Generation, Text Summarization and Image Caption tasks, respectively. Our empirical results demonstrate that the proposed multi-agent discussion mechanism is helpful for maximizing the utility of the communication between agents.
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30

Eda, Kazuo, and Toshiyuki Osakai. "Mechanism of Multi-Electron Transfer Reactions for Heteropolyanions." Review of Polarography 61, no. 2 (2015): 77–86. http://dx.doi.org/10.5189/revpolarography.61.77.

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31

SAKAMOTO, Satoshi, Yasuo KONDO, Kenji YAMAGUCHI, Hisataka TANAKA, Hiroko HAMAMOTO, Noboru MURAKAMI, Norio AKITA, and Takao YAKOU. "Study on Slicing Mechanism of Multi-Wire Saw." Journal of the Japan Society for Precision Engineering, Contributed Papers 72, no. 12 (2006): 1510–14. http://dx.doi.org/10.2493/jspe.72.1510.

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32

Chen, Jiann-Liang, Yi-Wei Ma, Chia-Ping Lai, Chia-Cheng Hu, and Yueh-Min Huang. "Multi-Hop Routing Mechanism for Reliable Sensor Computing." Sensors 9, no. 12 (December 11, 2009): 10117–35. http://dx.doi.org/10.3390/s91210117.

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33

HengLi Yang, and HsiaoFang Yang. "Recommendation Mechanism Based on Multi-attribute Utility Theory." International Journal of Digital Content Technology and its Applications 5, no. 3 (March 31, 2011): 373–82. http://dx.doi.org/10.4156/jdcta.vol5.issue3.37.

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34

Tsuchiya, Hikaru, Akinori Endo, and Yasushi Saeki. "Multi-Step Ubiquitin Decoding Mechanism for Proteasomal Degradation." Pharmaceuticals 13, no. 6 (June 23, 2020): 128. http://dx.doi.org/10.3390/ph13060128.

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The 26S proteasome is a 2.5-MDa protease complex responsible for the selective and ATP-dependent degradation of ubiquitylated proteins in eukaryotic cells. Proteasome-mediated protein degradation accounts for ~70% of all cellular proteolysis under basal conditions, and thereby any dysfunction can lead to drastic changes in cell homeostasis. A major function of ubiquitylation is to target proteins for proteasomal degradation. Accompanied by deciphering the structural diversity of ubiquitin chains with eight linkages and chain lengths, the ubiquitin code for proteasomal degradation has been expanding beyond the best-characterized Lys48-linked ubiquitin chains. Whereas polyubiquitylated proteins can be directly recognized by the proteasome, in several cases, these proteins need to be extracted or segregated by the conserved ATPases associated with diverse cellular activities (AAA)-family ATPase p97/valosin-containing protein (VCP) complex and escorted to the proteasome by ubiquitin-like (UBL)–ubiquitin associated (UBA) proteins; these are called substrate-shuttling factors. Furthermore, proteasomes are highly mobile and are appropriately spatiotemporally regulated in response to different cellular environments and stresses. In this review, we highlight an emerging key link between p97, shuttling factors, and proteasome for efficient proteasomal degradation. We also present evidence that proteasome-containing nuclear foci form by liquid–liquid phase separation under acute hyperosmotic stress.
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35

Ha, TaeGil, JongIn Lim, DongWon Yang, JunHee Lee, DoKyoung Kim, and JinYoung Choi. "Moving Object Detection Using Multi-resolution Attention Mechanism." Journal of the Institute of Electronics and Information Engineers 56, no. 3 (March 31, 2019): 81–93. http://dx.doi.org/10.5573/ieie.2019.56.3.81.

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36

Liu, Jian, Lei Wang, and Alan Yang. "Cooperative Relay Selection Mechanism in Multi-hop Networks." Computers, Materials & Continua 62, no. 3 (2020): 119–30. http://dx.doi.org/10.32604/cmc.2020.06074.

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37

LI Xiao-feng, 李晓峰, 杨文波 YANG Wen-bo, 王俊 WANG Jun, and 邱永生 QIU Yong-sheng. "Photoemission Mechanism of Multi-alkali Photocathode by Photoluminescence." ACTA PHOTONICA SINICA 41, no. 12 (2012): 1435–40. http://dx.doi.org/10.3788/gzxb20124112.1435.

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38

Li, Xiao-Yong, Chen Ji, and Gang Liu. "A Container-based Trusted Multi-level Security Mechanism." ITM Web of Conferences 11 (2017): 01002. http://dx.doi.org/10.1051/itmconf/20171101002.

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39

Khosravifar, Babak, Jamal Bentahara, Mahsa Alishahi, and Maziar Gomrokchi. "Collusion-Resistant Reputation Mechanism for Multi-Agents Systems." Procedia Computer Science 5 (2011): 181–89. http://dx.doi.org/10.1016/j.procs.2011.07.025.

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40

Qin, Yun, Jian S. Dai, and Grigore Gogu. "Multi-furcation in a derivative queer-square mechanism." Mechanism and Machine Theory 81 (November 2014): 36–53. http://dx.doi.org/10.1016/j.mechmachtheory.2014.06.006.

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41

Agusti-Torra, Anna, Cristina Cervello-Pastor, and Miquel A. Fiol. "ID Routing Mechanism for Opportunistic Multi-Hop Networks." IEEE Communications Letters 17, no. 12 (December 2013): 2388–91. http://dx.doi.org/10.1109/lcomm.2013.101813.131559.

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42

Busetti, Simone, and Bruno Dente. "Designing multi-actor implementation: A mechanism-based approach." Public Policy and Administration 33, no. 1 (December 7, 2016): 46–65. http://dx.doi.org/10.1177/0952076716681207.

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The article offers analytical tools for designing multi-actor implementation processes. It does so by proposing a design approach centred on causal mechanisms. Such design strategy requires designers to focus primarily on causal theories explaining why implementers commit overtime to implementing policies. The central proposal is that design procedures should be reversed, i.e. start by reasoning on the causal mechanisms explaining implementers’ behaviour and then go looking for design features. Several advantages of this approach related to designing, reforming, or transferring successful practices are discussed throughout the article. Finally, the article provides six extended examples of such mechanisms in different policy fields: actor’s certification, blame avoidance, earning brownie points, repeated interactions, focusing events and attribution of opportunity or threat.
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43

Suzuki, Hiroshi, Kenji Kubo, Katsutoshi Shoji, Yoshiyuki Komoda, and Hiromoto Usui. "Mixing Mechanism of a Multi-Holed Static Mixer." JOURNAL OF CHEMICAL ENGINEERING OF JAPAN 41, no. 3 (2008): 139–44. http://dx.doi.org/10.1252/jcej.07we215.

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44

Li, Liang, Yong Dai, Rui Jiang He, and Dong Hui Ding. "Research on Processing Mechanism of Multi-Cell-Disc." Advanced Materials Research 497 (April 2012): 329–33. http://dx.doi.org/10.4028/www.scientific.net/amr.497.329.

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this paper relates to the following studies: The model of cutting depth distribution of grains of Multi-cell-disc was analyzed and established. The shape of the abrasive grit has been discussed and the abrasive grit shape model of unit-bold was simplified. The superficial characters of elastic elements were tested by Nano-indentation tests and the loading-displacement character of superficial abrasive particles during loading was gotten. By using probability and statistics, the model of cutting depth distribution of grains was obtained.
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45

Popov, I. P. "MATHEMATICAL MODELING OF A MULTI-INERT OSCILLATORY MECHANISM." Bulletin of the South Ural State University series "Mechanical Engineering Industry" 20, no. 1 (2020): 22–29. http://dx.doi.org/10.14529/engin200103.

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It is noted that the free harmonic vibrations of a classical pendulum are due to the mutual conversion of the kinetic energy of the load intothe potential energy of the spring. Oscillators with a different nature of energy exchange have been developed, for example, by converting the kinetic energy of a load into the energy of a magnetic field of a solenoid or the energy of an electric field of a capacitor. All these oscillatory systems and the like were a prerequisite for the creation of a biinert oscillator,in which the acceleration of one load occurs due to the braking of another, i. e. only kinetic energies are exchanged. The aim of the work is mathematical modeling of a multi-inert oscillatory mechanism. The main research methods in the framework of this work are methods of mathematical modeling and analysis. The methods used make it possible to obtain a reliable description of the studied objects. Inthe proposed multi-inert oscillator, inert bodies of mass m each carry out harmonic oscillations due to the mutual exchange of kinetic energy. The potential energy of the springs is not requiredfor this. Body vibrationsare free. A feature of a multi-inert oscillator is that the frequency of itsfree oscillations is not fixed and is determined mainly by the initial conditions. This feature can be very useful for technical applications, for example, for self-neutralization of mechanical reactive (inertial) power. n-gon, formed by inert bodies, carries out complex motion – orbital rotation around the center of coordinates and spin rotation around its axis passing through the center of the n-gon. Moreover, each load performs linear harmonic oscillations along its guide. With the arrangement of the guiding weights not in the form of a star, but in parallel to each other, the angles between the corresponding cranks must be 360/n degrees.
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46

Aweya, James, Michel Ouellette, and Delfin Y. Montuno. "Service differentiation using a multi-level RED mechanism." International Journal of Network Management 12, no. 2 (2002): 81–98. http://dx.doi.org/10.1002/nem.424.

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47

Zhao, Deng Feng, and Guo Ying Zeng. "Dimension Classification Method of Multi-Loop Planar Mechanism." Applied Mechanics and Materials 37-38 (November 2010): 362–65. http://dx.doi.org/10.4028/www.scientific.net/amm.37-38.362.

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Based on the group theory and the complex division method, the dimension classified method for planar multi-loop mechanism was analyzed. Firstly, the dimension classified inequation was derived from the singularity of constraint equation of the mechanism. Subsequently, by using the classified inequation, the complex division method of the structure-parameter-space was explored. By using the mechanism symmetry group, the simplification method of the division results was analyzed. Finally, by using an example, the classified methods were validated. The results show that all information about mechanism classification are included in the division results. Besides, this method is appropriate for complicated mechanism classification by computer.
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48

Takahashi, K., and K. S. Ikeda. "An intrinsic multi-dimensional mechanism of barrier tunneling." Europhysics Letters (EPL) 71, no. 2 (July 2005): 193–99. http://dx.doi.org/10.1209/epl/i2004-10538-1.

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49

Takahashi, K., and K. S. Ikeda. "An intrinsic multi-dimensional mechanism of barrier tunneling." Europhysics Letters (EPL) 75, no. 2 (July 2006): 355. http://dx.doi.org/10.1209/epl/i2006-10126-5.

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50

Tang, L. B., Y. H. Chen, and X. J. He. "Multi-material compliant mechanism design and haptic evaluation." Virtual and Physical Prototyping 2, no. 3 (September 2007): 155–60. http://dx.doi.org/10.1080/17452750701691831.

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