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Artículos de revistas sobre el tema "First order dynamic"

Autor: Grafiati
Publicado: 10 de marzo de 2023
Última modificación: 31 de julio de 2025

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1

ÖZOĞUZ, BANU EBRU, YIĞIT GÜNDÜÇ, and MERAL AYDIN. "DYNAMIC SCALING FOR FIRST-ORDER PHASE TRANSITIONS." International Journal of Modern Physics C 11, no. 03 (2000): 553–59. http://dx.doi.org/10.1142/s0129183100000468.

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The critical behavior in short time dynamics for the q = 6 and 7 state Potts models in two-dimensions is investigated. It is shown that dynamic finite-size scaling exists for first-order phase transitions.
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2

Bharadwaj, Shrikant R., and Clifton M. Schor. "Dynamic control of ocular disaccommodation: First and second-order dynamics." Vision Research 46, no. 6-7 (2006): 1019–37. http://dx.doi.org/10.1016/j.visres.2005.06.005.

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3

Sanner, Scott, and Kristian Kersting. "Symbolic Dynamic Programming for First-order POMDPs." Proceedings of the AAAI Conference on Artificial Intelligence 24, no. 1 (2010): 1140–46. http://dx.doi.org/10.1609/aaai.v24i1.7747.

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Partially-observable Markov decision processes (POMDPs) provide a powerful model for sequential decision-making problems with partially-observed state and are known to have (approximately) optimal dynamic programming solutions. Much work in recent years has focused on improving the efficiency of these dynamic programming algorithms by exploiting symmetries and factored or relational representations. In this work, we show that it is also possible to exploit the full expressive power of first-order quantification to achieve state, action, and observation abstraction in a dynamic programming solu
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4

Dos Santos, Iguer Luis Domini, Sanket Tikare, and Martin Bohner. "First-order nonlinear dynamic initial value problems." International Journal of Dynamical Systems and Differential Equations 11, no. 3/4 (2021): 241. http://dx.doi.org/10.1504/ijdsde.2021.10040295.

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5

Bohner, Martin, Sanket Tikare, and Iguer Luis Domini Dos Santos. "First-order nonlinear dynamic initial value problems." International Journal of Dynamical Systems and Differential Equations 11, no. 3/4 (2021): 241. http://dx.doi.org/10.1504/ijdsde.2021.117358.

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6

Fu, Bin, and Qiongzhang Li. "The expressibility of first order dynamic logic." Journal of Computer Science and Technology 7, no. 3 (1992): 268–73. http://dx.doi.org/10.1007/bf02946577.

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7

Pu, Yewen, Rastislav Bodik, and Saurabh Srivastava. "Synthesis of first-order dynamic programming algorithms." ACM SIGPLAN Notices 46, no. 10 (2011): 83–98. http://dx.doi.org/10.1145/2076021.2048076.

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8

Atici, F. Merdivenci, and D. C. Biles. "First order dynamic inclusions on time scales." Journal of Mathematical Analysis and Applications 292, no. 1 (2004): 222–37. http://dx.doi.org/10.1016/j.jmaa.2003.11.053.

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9

Mantin, Benny, Daniel Granot, and Frieda Granot. "Dynamic pricing under first order Markovian competition." Naval Research Logistics (NRL) 58, no. 6 (2011): 608–17. http://dx.doi.org/10.1002/nav.20470.

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10

Joshi, S., and R. Khardon. "Probabilistic Relational Planning with First Order Decision Diagrams." Journal of Artificial Intelligence Research 41 (June 21, 2011): 231–66. http://dx.doi.org/10.1613/jair.3205.

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Dynamic programming algorithms have been successfully applied to propositional stochastic planning problems by using compact representations, in particular algebraic decision diagrams, to capture domain dynamics and value functions. Work on symbolic dynamic programming lifted these ideas to first order logic using several representation schemes. Recent work introduced a first order variant of decision diagrams (FODD) and developed a value iteration algorithm for this representation. This paper develops several improvements to the FODD algorithm that make the approach practical. These include,
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11

Bohner, Martin, and Sanket Tikare. "Ulam Stability for First-Order Nonlinear Dynamic Equations." Sarajevo Journal of Mathematics 18, no. 1 (2024): 83–96. http://dx.doi.org/10.5644/sjm.18.01.06.

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The purpose of this paper is to investigate Ulam stability of firstorder nonlinear dynamic equations on time scales. Based on the method of the Picard operator and using dynamic inequalities, we obtain four types of stability. In addition, as applications of our main result, we obtain new Ulam stability results for other nonlinear dynamic equations. An example is also provided to illustrate our main result.
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12

Erbe, Lynn, Taher Hassan, and Allan Peterson. "Oscillation criteria for first order forced dynamic equations." Applicable Analysis and Discrete Mathematics 3, no. 2 (2009): 253–63. http://dx.doi.org/10.2298/aadm0902253e.

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We obtain some new oscillation criteria for solutions to certain first order forced dynamic equations on a time scale T of the form x?(t) + r(t)??(x? (t)) + p(t)?? (x? (t)) + q(t)??(x?(t)) = f(t); with ??(u) :=?u?n-1, ?>0. > 0. Here r(t); p (t) ; q(t) and f (t) are rdcontinuous functions on T and the forcing term f(t) is not required to be the derivative of an oscillatory function. Our results in the special cases when T = R and T = N involve and improve some previous oscillation results for first-order differential and difference equations. An example illustrating the importance of our
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13

Schülke, L., and B. Zheng. "Dynamic approach to weak first-order phase transitions." Physical Review E 62, no. 5 (2000): 7482–85. http://dx.doi.org/10.1103/physreve.62.7482.

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14

Binz, Tim, and Klaus-Jochen Engel. "First-order evolution equations with dynamic boundary conditions." Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 378, no. 2185 (2020): 20190615. http://dx.doi.org/10.1098/rsta.2019.0615.

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In this paper, we introduce a general framework to study linear first-order evolution equations on a Banach space X with dynamic boundary conditions, that is with boundary conditions containing time derivatives. Our method is based on the existence of an abstract Dirichlet operator and yields finally to equivalent systems of two simpler independent equations. In particular, we are led to an abstract Cauchy problem governed by an abstract Dirichlet-to-Neumann operator on the boundary space ∂ X . Our approach is illustrated by several examples and various generalizations are indicated. This arti
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15

Atici, FM, and DC Biles. "First- and second-order dynamic equations with impulse." Advances in Difference Equations 2005, no. 2 (2005): 193525. http://dx.doi.org/10.1155/ade.2005.119.

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16

Xue, Shuqiang, Yuanxi Yang, Yamin Dang, and Wu Chen. "Dynamic positioning configuration and its first-order optimization." Journal of Geodesy 88, no. 2 (2013): 127–43. http://dx.doi.org/10.1007/s00190-013-0683-7.

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17

Sung, Yoon-Gyung, and Seongjun Lee. "Robust Input Shaping Commands with First-Order Actuators." Micromachines 15, no. 9 (2024): 1086. http://dx.doi.org/10.3390/mi15091086.

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This paper presents robust input shaping commands with first-order actuators utilizing a classical robust input shaper for practical applications in input shaping technology. An ideal input shaping command can deviate due to actuator dynamics so that the modified command has a detrimental effect on the performance of oscillation reduction in feedforward control applications. A zero-vibration-derivative (ZVDF) shaper with first-order actuators is analytically proposed using a phasor–vector approach, an exponential function for the approximation of the dynamic response of first-order actuators a
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18

Wang, Yongzhao, Qian Liu, and Qiansheng Feng. "Periodic problem of first order nonlinear uncertain dynamic systems." Journal of Nonlinear Sciences and Applications 10, no. 12 (2017): 6288–97. http://dx.doi.org/10.22436/jnsa.010.12.13.

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19

Benchohra, M., J. Henderson, S. K. Ntouyas‡, and A. Ouahab. "On First Order Impulsive Dynamic Equations on Time Scales." Journal of Difference Equations and Applications 10, no. 6 (2004): 541–48. http://dx.doi.org/10.1080/10236190410001667986.

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20

van Eijck, J. "Tableau reasoning and programming with dynamic first order logic." Logic Journal of IGPL 9, no. 3 (2001): 411–45. http://dx.doi.org/10.1093/jigpal/9.3.411.

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21

Braverman, Elena, and Başak Karpuz. "Nonoscillation of First-Order Dynamic Equations with Several Delays." Advances in Difference Equations 2010 (2010): 1–22. http://dx.doi.org/10.1155/2010/873459.

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22

Battaglini, Marco, and Rohit Lamba. "Optimal dynamic contracting: The first‐order approach and beyond." Theoretical Economics 14, no. 4 (2019): 1435–82. http://dx.doi.org/10.3982/te2355.

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We explore the conditions under which the “first‐order approach” (FO approach) can be used to characterize profit maximizing contracts in dynamic principal–agent models. The FO approach works when the resulting FO‐optimal contract satisfies a particularly strong form of monotonicity in types, a condition that is satisfied in most of the solved examples studied in the literature. The main result of our paper is to show that except for nongeneric choices of the stochastic process governing the types' evolution, monotonicity and, more generally, incentive compatibility are necessarily violated by
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23

Wang, Da-Bin, Jian-Ping Sun, and Xiao-Jun Li. "Positive Solutions for System of First-Order Dynamic Equations." Discrete Dynamics in Nature and Society 2010 (2010): 1–13. http://dx.doi.org/10.1155/2010/371285.

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We study the existence of positive solutions to the system of nonlinear first-order periodic boundary value problems on time scalesxΔ(t)+P(t)x(σ(t))=F(t,x(σ(t))),t∈[0,T]T,x(0)=x(σ(T)), by using a well-known fixed point theorem in cones. Moreover, we characterize the eigenvalue intervals forxΔ(t)+P(t)x(σ(t))=λH(t)G(x(σ(t))),t∈[0,T]T,x(0)=x(σ(T)).
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24

Occhipinti Liberman, Andrés, Andreas Achen, and Rasmus Kræmmer Rendsvig. "Dynamic term-modal logics for first-order epistemic planning." Artificial Intelligence 286 (September 2020): 103305. http://dx.doi.org/10.1016/j.artint.2020.103305.

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25

Cingara, Aleksandar, Miodrag Jovanovic, and Milan Mitrovic. "Analytical first-order dynamic model of binary distillation column." Chemical Engineering Science 45, no. 12 (1990): 3585–92. http://dx.doi.org/10.1016/0009-2509(90)87161-k.

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26

Selvam, A. George Maria, M. Paul Loganathan, and S. Janci Rani. "Existence of Nonoscillatory Solutions of First-order Neutral Dynamic Equations." International Journal of Advanced Research in Computer Science and Software Engineering 7, no. 6 (2017): 671–79. http://dx.doi.org/10.23956/ijarcsse/v7i6/0310.

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27

Bohner, Martin, and Allian Peterson. "First and second order linear dynamic equations on time scales." Journal of Difference Equations and Applications 7, no. 6 (2001): 767–92. http://dx.doi.org/10.1080/10236190108808302.

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28

Kiviet, Jan F., Garry D. A. Phillips, and Bernhard Schipp. "Alternative bias approximations in first-order dynamic reduced form models." Journal of Economic Dynamics and Control 23, no. 7 (1999): 909–28. http://dx.doi.org/10.1016/s0165-1889(98)00055-4.

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29

Darowicki, K., and P. Ślepski. "Dynamic electrochemical impedance spectroscopy of the first order electrode reaction." Journal of Electroanalytical Chemistry 547, no. 1 (2003): 1–8. http://dx.doi.org/10.1016/s0022-0728(03)00154-2.

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30

Passenbrunner, Thomas E., Mario Sassano, and Luca Zaccarian. "Optimality-based dynamic allocation with nonlinear first-order redundant actuators." European Journal of Control 31 (September 2016): 33–40. http://dx.doi.org/10.1016/j.ejcon.2016.04.002.

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31

Wu, Haihua, and Zhan Zhou. "Stability for first order delay dynamic equations on time scales." Computers & Mathematics with Applications 53, no. 12 (2007): 1820–31. http://dx.doi.org/10.1016/j.camwa.2006.09.011.

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32

Dufour, Jean-Marie, and Jan F. Kiviet. "Exact tests for structural change in first-order dynamic models." Journal of Econometrics 70, no. 1 (1996): 39–68. http://dx.doi.org/10.1016/0304-4076(94)01683-6.

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33

Rizi, V., and S. K. Ghosh. "Dynamic critical behavior above a strong first-order phase transition." Physics Letters A 127, no. 5 (1988): 270–74. http://dx.doi.org/10.1016/0375-9601(88)90695-0.

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34

Bendouma, Bouharket, Amine Benaissa Cherif, and Ahmed Hammoudi. "Systems of first-order nabla dynamic equations on time scales." Malaya Journal of Matematik 06, no. 04 (2018): 757–65. http://dx.doi.org/10.26637/mjm0604/0009.

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35

Bohner, M., B. Karpuz, and Ö. Öcalan. "Iterated Oscillation Criteria for Delay Dynamic Equations of First Order." Advances in Difference Equations 2008, no. 1 (2008): 458687. http://dx.doi.org/10.1155/2008/458687.

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36

Lew, Dongkyu, Suho Cha, and Sung-hwan Shin. "Factor affecting dynamic feeling of vehicle sound related to firing-order component and its effect." INTER-NOISE and NOISE-CON Congress and Conference Proceedings 268, no. 4 (2023): 4463–69. http://dx.doi.org/10.3397/in_2023_0636.

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As consumers' expectations for the perceptional feeling of vehicles increase, the studies on sound design to improve the dynamic feeling have been actively conducted. The purpose of this study is to propose relevant factors to improve dynamics without reducing pleasantness. To this end, subjective tests were conducted to evaluate dynamic and comfortable feelings on the noises during the acceleration of two comparison vehicles. A factor based on the TNR (tone-to-noise ratio) of ISO7779, TNRorder was extracted that could represent the feature of tonality of non-stationary signals. A vehicle havi
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37

Shimpi, R. P., H. G. Patel, and H. Arya. "New First-Order Shear Deformation Plate Theories." Journal of Applied Mechanics 74, no. 3 (2006): 523–33. http://dx.doi.org/10.1115/1.2423036.

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First-order shear deformation theories, one proposed by Reissner and another one by Mindlin, are widely in use, even today, because of their simplicity. In this paper, two new displacement based first-order shear deformation theories involving only two unknown functions, as against three functions in case of Reissner’s and Mindlin’s theories, are introduced. For static problems, governing equations of one of the proposed theories are uncoupled. And for dynamic problems, governing equations of one of the theories are only inertially coupled, whereas those of the other theory are only elasticall
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38

Anderson, Douglas R., and Masakazu Onitsuka. "Hyers-Ulam stability of first-order homogeneous linear dynamic equations on time scales." Demonstratio Mathematica 51, no. 1 (2018): 198–210. http://dx.doi.org/10.1515/dema-2018-0018.

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Abstract We establish theHyers-Ulam stability (HUS) of certain first-order linear constant coefficient dynamic equations on time scales, which include the continuous (step size zero) and the discrete (step size constant and nonzero) dynamic equations as important special cases. In particular, for certain parameter values in relation to the graininess of the time scale, we find the minimum HUS constants. A few nontrivial examples are provided. Moreover, an application to a perturbed linear dynamic equation is also included.
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39

Picard, Rainer, and Sascha Trostorff. "Dynamic first order wave systems with drift term on Riemannian manifolds." Journal of Mathematical Analysis and Applications 505, no. 1 (2022): 125465. http://dx.doi.org/10.1016/j.jmaa.2021.125465.

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40

Bao, Yong. "Indirect Inference Estimation of a First-Order Dynamic Panel Data Model." Journal of Quantitative Economics 19, S1 (2021): 79–98. http://dx.doi.org/10.1007/s40953-021-00264-w.

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41

Kim, Kyeong-Hwan, Young-Cheol Yoon, and Sang-Ho Lee. "Dynamic Analysis of MLS Difference Method using First Order Differential Approximation." Journal of the Computational Structural Engineering Institute of Korea 31, no. 6 (2018): 331–37. http://dx.doi.org/10.7734/coseik.2018.31.6.331.

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42

Brooks, B. P. "Linear stability conditions for a first-order three-dimensional discrete dynamic." Applied Mathematics Letters 17, no. 4 (2004): 463–66. http://dx.doi.org/10.1016/s0893-9659(04)90090-0.

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43

Zhang, L., and Y. F. Xing. "Extremal Solutions for Nonlinear First-Order Impulsive Integro-Differential Dynamic Equations." Mathematical Notes 105, no. 1-2 (2019): 123–31. http://dx.doi.org/10.1134/s0001434619010139.

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44

Braverman, Elena, and Başak Karpuz. "Uniform exponential stability of first-order dynamic equations with several delays." Applied Mathematics and Computation 218, no. 21 (2012): 10468–85. http://dx.doi.org/10.1016/j.amc.2012.04.010.

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45

Öcalan, Özkan, and Nurten KILIÇ. "Oscillation condition for first order linear dynamic equations on time scales." Malaya Journal of Matematik 11, no. 03 (2023): 263–71. http://dx.doi.org/10.26637/mjm1103/002.

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In this paper, we deal with the first-order dynamic equations withnonmonotone arguments\begin{equation*}y^{\Delta }(t)+\underset{i=1}{\overset{m}{\sum }}p_{i}(t)y\left( \tau_{i}(t)\right) =0,\text{ }t\in \lbrack t_{0},\infty )_{\mathbb{T}}\end{equation*}where $p_{i}\in C_{rd}\left( [t_{0},\infty )_{\mathbb{T}},%\mathbb{R}^{+}\right) ,$ $\tau _{i}\in C_{rd}\left( [t_{0},\infty )_{\mathbb{%T}},\mathbb{T}\right) $ and $\tau _{i}(t)\leq t,\ \lim_{t\rightarrow \infty}\tau _{i}(t)=\infty $ for $1\leq i\leq m$. Also, we present a new sufficient condition for theoscillation of delay dynamic equations
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46

Zhang, Jun, Yu Tian, Zongjin Ren, Jun Shao, and Zhenyuan Jia. "A Novel Dynamic Method to Improve First-order Natural Frequency for Test Device." Measurement Science Review 18, no. 5 (2018): 183–92. http://dx.doi.org/10.1515/msr-2018-0026.

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Abstract It is important to improve the natural frequency of test device to improve measurement accuracy. First-order frequency is basic frequency of dynamic model, which generally is the highest vibration energy of natural frequency. Taking vector force test device (VFTD) as example, a novel dynamic design method for improving first-order natural frequency by increasing structure stiffness is proposed. In terms of six degree-of-freedom (DOF) of VFTD, dynamic model of VFTD is built through the Lagrange dynamic equation to obtain theoretical natural frequency and mode shapes. Experimental natur
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47

Kumar K, Arun. "Optimizing Warehouse Layout and Scheduling with the DOBT Algorithm." International Journal of Inventions in Engineering & Science Technology 11, no. 1 (2025): 32–43. https://doi.org/10.37648/ijiest.v11i01.005.

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Traditionally, the integrity of orders has been overlooked in the parallel retrieval processes of multiple stackers. To address this, this paper proposes using an Order Tag to label all items within the same order, which is then used for scheduling retrieval tasks. The method for calculating these Order Tags influences the scheduling discipline of the ARS. To minimize average delay and ensure fairness, two new algorithms are introduced: the Dynamic Order-Based (DOB) Scheduling Algorithm and the Dynamic Order-Based with Threshold (DOBT) Scheduling Algorithm. To automate and expedite this retrie
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48

Gautam, Mahapatra, Mahapatra Srijita, and Banerjee Soumya. "A Study of Firefly Algorithm and its Application in Non Linear Dynamic Systems." International Journal of Trend in Scientific Research and Development 2, no. 2 (2018): 542–49. https://doi.org/10.31142/ijtsrd8393.

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Firefly Algorithm FA is a newly proposed computation technique with inherent parallelism, capable for local as well as global search, meta heuristic and robust in computing process. In this paper, Firefly Algorithm for Dynamic System FADS is a proposed system to find instantaneous behavior of the dynamic system within a single framework based on the idealized behavior of the flashing characteristics of fireflies. Dynamic system where flows of mass and or energy is cause of dynamicity is generally represented as a set of differential equations and Fourth Order Runge Kutta RK4 method is one of u
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49

TARAU, PAUL, and VERONICA DAHL. "High-level networking with mobile code and first order AND-continuations." Theory and Practice of Logic Programming 1, no. 3 (2001): 359–80. http://dx.doi.org/10.1017/s1471068401001193.

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We describe a scheme for moving living code between a set of distributed processes coordinated with unification based Linda operations, and its application to building a comprehensive Logic programming based Internet programming framework. Mobile threads are implemented by capturing first order continuations in a compact data structure sent over the network. Code is fetched lazily from its original base turned into a server as the continuation executes at the remote site. Our code migration techniques, in combination with a dynamic recompilation scheme, ensure that heavily used code moves up s
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50

Huang, Zhi Dong, An Min Hui, Guang Yang, and Rui Yang Li. "Parametric Design and Modal Analysis on Four-Order Elliptical Gear." Applied Mechanics and Materials 423-426 (September 2013): 1516–19. http://dx.doi.org/10.4028/www.scientific.net/amm.423-426.1516.

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The characteristics of four-order elliptical gear is analyzed. The parameters of four-order elliptical gear are chosen and calculated. The three-dimensional solid modeling of four-order elliptical gear is achieved. The dynamic model of four-order elliptical gear is established by finite element method and modal analysis of four-order elliptical gear is investigated. The natural frequencies and major modes of the first six orders are clarified. The method and the result facilitate the dynamic design and dynamic response analysis of high-order elliptical gear.
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