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Colored Petri Net-Based Verification and Improvement of Time-Sensitive Single-Unit Manufacturing for the Soil Preparation Instrument of Space Missions (2020)

Yung, Kai Leung ; Gao, Ming ; Liu, An ; [et al.]

Hindawi

In: Discrete Dynamics in Nature and Society. 2020; 2020: 1-18. Published 2020 Aug 25. doi: 10.1155/2020/2162869.

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Publication Date: 2020-08-25

Description: Various space missions, including the Russian and Chinese interplanetary exploration collaboration in 2011 and the Phobos-Grunt space project to be relaunched by the Chinese in 2025, carry a soil preparation system (SOPSYS), which is an instrument used for scientific experiments. The design and manufacture of this precision instrument require stringent manufacturing processes and workflow of the highest quality, with every process in the project carefully monitored and controlled. All processes should be completed within the deadline so that the space project can be launched at the scheduled time. The colored Petri net (CPN) modeling method can describe a variety of resource types and execution logic, and it can be formally verified. Based on these advantages, we clearly describe the complex structure of the SPOSYS unit production process. In addition, we use critical time and the 6 sigma system to evaluate the availability and reliability of workflows, and we use elimination and simplification (ECRS) methods and constraint theory to improve the manufacturing process of the SOPSYS unit. We further provide optimization theories, methods, and insights for workflow management in time-sensitive and independent manufacturing systems.

Print ISSN: 1026-0226

Electronic ISSN: 1607-887X

Topics: Mathematics

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An Integrated Decoupling Device for Azimuth Control of a Balloon-Borne Gondola (2020)

Wang, Honghui ; Yu, Xiaojun ; Wu, Juan ; [et al.]

Hindawi

In: Mathematical Problems in Engineering. 2020; 2020: 1-10. Published 2020 Aug 25. doi: 10.1155/2020/6718273.

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Publication Date: 2020-08-25

Description: Controlling and maintaining the orientation of the balloon-borne gondola for high-altitude flight is a prerequisite for ensuring the pointing control of observation instruments. When the balloon-borne gondola is flying in the stratosphere of the atmosphere, the existing external interferences will be converted into the coupling moment to the azimuth control system. Meanwhile, those uncertain factors and the frictional nonlinearity of the control system will also cause a certain magnitude of coupling moment. The existence of such coupling moment largely impacts on the accuracy and stability of the orientation control for the angular momentum exchange devices of the balloon-borne gondola. To address such an issue, this paper proposes and implements a novel type of integrated decoupler device. With this decoupler adopted, the aziDmuth control system could sense the existence of coupling torque and azimuth fluctuations quickly and suppress the influences of external interference, uncertain factors, and system structure nonlinearity on the azimuth control effectively, thereby improving the control accuracy of the azimuth control system. Both simulations and experiments are conducted to verify the effectiveness of the proposed device. The results show that the integration of the decoupler and the controller of the azimuth control system provide the azimuth control of the balloon-borne gondola with high accuracy and stability. Such a decoupler device design has a broad potential and could not only be used for balloon-borne gondola control but also could be applied onto other control systems using angular momentum exchange devices as actuators.

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Electronic ISSN: 1563-5147

Topics: Mathematics , Technology

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Continuous Time Formulation and Lagrangian Relaxation Algorithm for the Gate Assignment Problem (2020)

Yuan, Yuan ; Yan, Ping ; Zhao, Liqiang

Hindawi

In: Mathematical Problems in Engineering. 2020; 2020: 1-11. Published 2020 Aug 25. doi: 10.1155/2020/5059817.

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Publication Date: 2020-08-25

Description: Gates are important operating facilities and resources in civil airports. It is a core task in the airport operation management to select reasonable gates for inbound and outbound flights. We present a continuous time formulation with second-order cone programming (SOCP) for the gate assignment problem which allocates flights to available gates to optimize both the transfer time of passengers and the robustness of the airport operations schedules. The problem is formulated as a mixed integer nonlinear program, and then, the quadratic objective that minimizes the walking distance of transferring passengers is linearized, and the objective that minimizes the variance of idle time at the gates is transformed to a second-order cone constraint with a linear objective function. Then, a Lagrangian relaxation algorithm is developed by exploiting the problem structure. Computational tests are carried out to illustrate the efficiency of the model and the algorithms. It is shown that the continuous time formulation is more efficient than the existing model, and the Lagrangian relaxation algorithm can obtain better solutions faster than a commercial solver.

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Stability of a Discrete-Time Pathogen Infection Model with Adaptive Immune Response (2020)

Alshaikh, M. A. ; Elaiw, A. M.

Hindawi

In: Discrete Dynamics in Nature and Society. 2020; 2020: 1-26. Published 2020 Aug 25. doi: 10.1155/2020/1264175.

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Publication Date: 2020-08-25

Description: This paper studies the global stability of a discrete-time pathogen dynamic model with both cell-mediated and antibody immune responses. Both latently and actively infected cells are incorporated into the model. We discretize the continuous-time model by using the nonstandard finite difference (NSFD) method. We establish that NSFD preserves the nonnegativity and boundedness of the solutions of the model. We derive four threshold parameters which govern the existence and stability of the steady states. We establish by using the Lyapunov method, the global stability of the five steady states of the model. We illustrate our theoretical results by using numerical simulations.

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Certain Generating Relations Involving the Generalized Multi-Index Bessel–Maitland Function (2020)

Jain, Shilpi ; Nieto, Juan J. ; Singh, Gurmej ; [et al.]

Hindawi

In: Mathematical Problems in Engineering. 2020; 2020: 1-5. Published 2020 Aug 25. doi: 10.1155/2020/8596736.

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Publication Date: 2020-08-25

Description: Generating relations involving the special functions have already proved their important role in mathematics and other fields of sciences. In this paper, we aim to provide some presumably new generating relations in connection with the generalized multi-index Bessel–Maitland function Jνjm,qλjm,γ.. The main results presented here, being very general, can yield a number of particular or equivalent identities, some of which are explicitly demonstrated.

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Electric Vehicle Routing Problems with Stochastic Demands and Dynamic Remedial Measures (2020)

Ge, Xianlong ; Zhu, Ziqiang ; Jin, Yuanzhi

Hindawi

In: Mathematical Problems in Engineering. 2020; 2020: 1-15. Published 2020 Aug 25. doi: 10.1155/2020/8795284.

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Publication Date: 2020-08-25

Description: With the rapid development of e-commerce, logistic enterprises must better predict customer demand to improve distribution efficiency, so as to deliver goods in advance, which makes logistics stochastic and dynamic. In order to deal with this challenge and respond to the concept of “green logistics,” an electric vehicle routing problem with stochastic demands (EVRPSD) and proactive remedial measures is investigated, and an EVRPSD model with probability constraints is established. At the same time, a hybrid heuristic algorithm, combining a saving method and an improved Tabu search algorithm, is proposed to solve the model. Moreover, two insertion strategies with the greedy algorithm for charging stations and dynamic nodes are introduced. Finally, a large number of experimental data show that the heuristic algorithm proposed in this paper is feasible and effective.

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An Overview on Linear Unmixing of Hyperspectral Data (2020)

Wei, Jiaojiao ; Wang, Xiaofei

Hindawi

In: Mathematical Problems in Engineering. 2020; 2020: 1-12. Published 2020 Aug 25. doi: 10.1155/2020/3735403.

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Publication Date: 2020-08-25

Description: Hyperspectral remote sensing technology has a strong capability for ground object detection due to the low spatial resolution of hyperspectral imaging spectrometers. A single pixel that leads to a hyperspectral remote sensing image usually contains more than one feature coverage type, resulting in a mixed pixel. The existence of a mixed pixel affects the accuracy of the ground object identification and classification and hinders the application and development of hyperspectral technology. For the problem of unmixing of mixed pixels in hyperspectral images (HSIs), the linear mixing model can model the mixed pixels well. Through the collation of nearly five years of the literature, this paper introduces the development status and problems of linear unmixing models from four aspects: geometric method, nonnegative matrix factorization (NMF), Bayesian method, and sparse unmixing.

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Robust Object Tracking via Reverse Low-Rank Sparse Learning and Fractional-Order Variation Regularization (2020)

Tian, Dan ; Zhang, Guoshan ; Zang, Shouyu

Hindawi

In: Mathematical Problems in Engineering. 2020; 2020: 1-10. Published 2020 Aug 25. doi: 10.1155/2020/8640724.

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Publication Date: 2020-08-25

Description: Object tracking based on low-rank sparse learning usually makes the drift phenomenon occur when the target faces severe occlusion and fast motion. In this paper, we propose a novel tracking algorithm via reverse low-rank sparse learning and fractional-order variation regularization. Firstly, we utilize convex low-rank constraint to force the appearance similarity of the candidate particles, so as to prune the irrelevant particles. Secondly, fractional-order variation is introduced to constrain the sparse coefficient difference in the bounded variation space, which allows the difference between consecutive frames to exist, so as to adapt object fast motion. Meanwhile, fractional-order regularization can restrain severe occlusion by considering more adjacent frames information. Thirdly, we employ an inverse sparse representation method to model the relationship between target candidates and target template, which can reduce the computation complexity for online tracking. Finally, an online updating scheme based on alternating iteration is proposed for tracking computation. Experiments on benchmark sequences show that our algorithm outperforms several state-of-the-art methods, especially exhibiting better adaptability for fast motion and severe occlusion.

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A Velocity-Combined Local Best Particle Swarm Optimization Algorithm for Nonlinear Equations (2020)

Lian, Zhigang ; Wang, Songhua ; Chen, Yangquan

Hindawi

In: Mathematical Problems in Engineering. 2020; 2020: 1-9. Published 2020 Aug 25. doi: 10.1155/2020/6284583.

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Publication Date: 2020-08-25

Description: Many people use traditional methods such as quasi-Newton method and Gauss–Newton-based BFGS to solve nonlinear equations. In this paper, we present an improved particle swarm optimization algorithm to solve nonlinear equations. The novel algorithm introduces the historical and local optimum information of particles to update a particle’s velocity. Five sets of typical nonlinear equations are employed to test the quality and reliability of the novel algorithm search comparing with the PSO algorithm. Numerical results show that the proposed method is effective for the given test problems. The new algorithm can be used as a new tool to solve nonlinear equations, continuous function optimization, etc., and the combinatorial optimization problem. The global convergence of the given method is established.

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Study on Waste Type Identification Method Based on Bird Flock Neural Network (2020)

Li, Shifeng ; Chen, Liyu

Hindawi

In: Mathematical Problems in Engineering. 2020; 2020: 1-12. Published 2020 Aug 25. doi: 10.1155/2020/9214350.

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Publication Date: 2020-08-25

Description: According to the waste type identification requirement in waste classification, a waste type identification method based on a bird flock neural network (BFNN) was proposed. The problem of obtaining the feature dataset of waste images was considered, and color histogram and texture feature extraction techniques were used. The local optimum problem of a typical backpropagation neural network (BPNN) was considered, and a bird flock optimization (BFO) algorithm was proposed. The accuracy problem of the typical BPNN was considered, and a new online weight adjustment method of neurons was proposed. The number of hidden layer neurons (nodes) of the typical BPNN was considered, and an online adjustment method was proposed. The experimental results show that the recyclables (paper, plastic, glass, and cloth) and nonrecyclables can effectively be identified by the waste type identification method based on the BFNN, and the recognition accuracy is 81% which meets actual needs.

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