658 research outputs found
Improved Multi-Population Differential Evolution for Large-Scale Global Optimization
Differential evolution (DE) is an efficient population-based search algorithm with good robustness, however, it is challenged to deal with high-dimensional problems. In this paper, we propose an improved multi-population differential evolution with best-and-current mutation strategy (mDE-bcM). The population is divided into three subpopulations based on the fitness values, each of subpopulations uses different mutation strategy. After crossover, mutation and selection, all subpopulations are updated based on the new fitness values of their individuals. An improved mutation strategy is proposed, which uses a new approach to generate base vector that is composed of the best individual and current individual. The performance of mDE-bcM is evaluated on a set of 19 large-scale continuous optimization problems, a comparative study is carried out with other state-of-the-art optimization techniques. The results show that mDE-bcM has a competitive performance compared to the contestant algorithms and better efficiency for large-scale optimization problems
Laser tuning parameters and concentration retrieval technique for wavelength modulation spectroscopy based on the variable-radius search artificial bee colony algorithm
A novel wavelength modulation spectroscopy (WMS) laser tuning parameters and
concentration retrieval technique based on the variable-radius-search
artificial bee colony(VRS-ABC) algorithm is proposed. The technique imitates
the foraging behavior of bees to achieve the retrieval of gas concentration and
laser tuning parameters in a calibration-free WMS system. To address the
problem that the basic artificial bee colony(ABC) algorithm tends to converge
prematurely, we improve the search method of the scout bee. In contrast to
prior concentration retrieval methods that utilized the Levenberg-Marquardt
algorithm, the current technique exhibits a reduced dependence on the
pre-characterization of laser parameters, leading to heightened precision and
reliability in concentration retrieval. We validated the simulation with the
VRS-ABC-based technique and the LM-based technique for the target gas C2H2. The
simulation results show that the VRS-ABC-based technique performs better in
terms of convergence speed and fitting accuracy, especially in the
multi-parameter model without exact characterization
Concentration retrieval in a calibration-free wavelength modulation spectroscopy system using particle swarm optimization algorithm
This paper develops a spectral fitting technology based on the particle swarm
optimization (PSO) algorithm, which is applied to a calibration-free wavelength
modulation spectroscopy system to achieve concentration retrieval. As compared
with other spectral fitting technology based on the Levenberg-Marquardt (LM)
algorithm, this technology is relatively weakly dependent on the
pre-characterization of the laser parameters. The gas concentration is
calculated by fitting the simulated spectra to the measured spectra using the
PSO algorithm. We validated the simulation with the LM algorithm and PSO
algorithm for the target gas C2H2. The results showed that the convergence
speed of the spectral fitting technique based on the PSO algorithm was about 63
times faster than the LM algorithm when the fitting accuracy remained the same.
Within 5 seconds, the PSO algorithm can produce findings that are generally
consistent with the values anticipated.Comment: arXiv admin note: text overlap with arXiv:2210.1654
Decreased intersubject synchrony in dynamic valence ratings of sad movie contents in dysphoric individuals
Emotional reactions to movies are typically similar between people. However, depressive symptoms decrease synchrony in brain responses. Less is known about the effect of depressive symptoms on intersubject synchrony in conscious stimulus-related processing. In this study, we presented amusing, sad and fearful movie clips to dysphoric individuals (those with elevated depressive symptoms) and control participants to dynamically rate the clips' valences (positive vs. negative). We analysed both the valence ratings' mean values and intersubject correlation (ISC). We used electrodermal activity (EDA) to complement the measurement in a separate session. There were no group differences in either the EDA or mean valence rating values for each movie type. As expected, the valence ratings' ISC was lower in the dysphoric than the control group, specifically for the sad movie clips. In addition, there was a negative relationship between the valence ratings' ISC and depressive symptoms for sad movie clips in the full sample. The results are discussed in the context of the negative attentional bias in depression. The findings extend previous brain activity results of ISC by showing that depressive symptoms also increase variance in conscious ratings of valence of stimuli in a mood-congruent manner.Peer reviewe
Numerical Investigations on Wedge Control of Separation of a Missile from an Aircraft
To make the missile safely separate from the internal weapons bay, a wedge flow control device is mounted on the front of the bay to control the variation of flow during the separation. The numerical simulations of missile separation without and with wedge flow control device under different sizes are carried out. The flow fields of different separation processes are obtained and discussed; the aerodynamic parameters and trajectory parameters of missile of different cases are illustrated and compared. Results show that, the wedge flow control device can accelerate the missile separation and has the effect of regulating the angular motion of missile. The influence of the wedge height is stronger than that of its length on the center of gravity motion and angular motion of missile
Design and development of a ceiling-mounted workshop measurement positioning system for large-scale metrology
This paper presents a new ceiling-mounted workshop Measurement Positioning System (C-wMPS) compensating for many deficiencies shown by conventional metrology systems, especially on the possibility of task-oriented designing for coverage ability, measurement accuracy and efficiency. A hybrid calibration system consisting of a high-precision coordinate control field and standard lengths is developed and implemented for the C-wMPS, which can be designed concretely to provide both traceability and the ability of local accuracy enhancement. Layout optimization using a genetic algorithm based on grids is applied to design an appropriate layout of the system, therefore promotes the system’s performance and reduce cost. An experiment carried out at the Guidance, Navigation and Control laboratory (GNC lab, 40×30×12m) validates the prominent characteristic of C-wMPS and the fitness of the new calibration system and layout optimization method.<br/
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