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2. Dynamic emission dispatch considering the probabilistic model with multiple smart energy system players based on a developed fuzzy theory-based harmony search algorithm. (2023). Kong, Xiangyu ; Cao, Man ; Yuan, Long ; Wang, Jidong ; Abderrahim, Bouchedjira ; Vartosh, Aris.
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1. Dynamic emission dispatch considering the probabilistic model with multiple smart energy system players based on a developed fuzzy theory-based harmony search algorithm. (2023). Kong, Xiangyu ; Cao, Man ; Yuan, Long ; Wang, Jidong ; Abderrahim, Bouchedjira ; Vartosh, Aris.
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2. Multi-Objective Dynamic Economic Emission Dispatch with Electric Vehicle–Wind Power Interaction Based on a Self-Adaptive Multiple-Learning Harmony-Search Algorithm. (2022). Zhu, Zhengyu ; Chai, Xuzhao ; Kang, Xiaopeng ; Yan, LI ; Huan, Jiajia ; Qu, Boyang ; Qiao, Baihao.
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3. Economic Emission Dispatch for Wind Power Integrated System with Carbon Trading Mechanism. (2021). Guo, Xiaojun ; Zhang, Xianyue ; Cheng, Siqi ; Wen, Qinglan ; Jin, Jingliang.
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4. Multiobjective Scheduling of Hybrid Renewable Energy System Using Equilibrium Optimization. (2021). Salkuti, Surender Reddy ; Dubey, Salil Madhav ; Pandit, Manjaree.
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5. Optimization of power dispatching strategies integrating management attitudes with low carbon factors. (2020). Zhou, Peng ; Bai, Yang ; Wen, Qinglan ; Jin, Jingliang ; Li, Chenyu.
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6. Multi-objective dynamic economic emission dispatch based on electric vehicles and wind power integrated system using differential evolution algorithm. (2020). Liu, Jing ; Qiao, Baihao.
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7. Metaheuristic optimization algorithms to estimate statistical distribution parameters for characterizing wind speeds. (2020). Rahman, Saifur ; Alrashidi, Musaed ; Pipattanasomporn, Manisa.
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8. Wind Power Integration: An Experimental Investigation for Powering Local Communities. (2019). Jumani, Touqeer Ahmed ; Chaudary, Sohaib Tahir ; Baloch, Mazhar Hussain ; Ishak, Dahaman ; Ali, Baqir ; Memon, Ali Asghar.
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9. A Hybrid Multi-Objective Crisscross Optimization for Dynamic Economic/Emission Dispatch Considering Plug-In Electric Vehicles Penetration. (2019). Liu, Zhenzu ; Mei, Panpan ; Wu, Lianghong ; Zhang, Hongqiang.
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10. Assessment of Offshore Wind Characteristics and Wind Energy Potential in Bohai Bay, China. (2019). Wu, Yuanda ; Fu, Yiqin ; Yu, Yang ; Guo, Shuai ; Li, MU ; You, Minjie.
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11. Energy Consumption Analysis and Optimization of the Deep-Sea Self-Sustaining Profile Buoy. (2019). Li, Xingfei ; Yang, Shaobo ; Liu, Mingcong ; Xu, Jiayi.
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12. Wind speed distribution selection – A review of recent development and progress. (2019). Schindler, Dirk ; Jung, Christopher.
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13. Wind energy potential at coastal and offshore locations in the state of Kuwait. (2019). Neelamani, S ; Kh, Shoug ; Alkhalidi, Mohamad A ; Aldashti, Hassan A.
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14. Day-ahead stochastic coordinated scheduling for thermal-hydro-wind-photovoltaic systems. (2019). Yin, Yue ; Liu, Tianqi ; He, Chuan.
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15. Capacity factor estimation of variable-speed wind turbines considering the coupled influence of the QN-curve and the air density. (2019). Yang, Xuebing ; Tang, Weiyi ; Zheng, Songyue ; Su, Mei ; Song, Dongran ; Joo, Young Hoon.
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16. Probabilistic load forecasting for buildings considering weather forecasting uncertainty and uncertain peak load. (2019). Wang, Shengwei ; Tang, Rui ; Xu, Lei.
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17. Development of Offshore Wind Power: Contrasting Optimal Wind Sites with Legal Restrictions in Galicia, Spain. (2018). Costoya, Xurxo ; Salvador, Santiago ; Gimeno, Luis ; Sanz-Larruga, Francisco Javier.
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18. New methods to assess wind resources in terms of wind speed, load, power and direction. (2018). Mandal, S ; Gugliani, G K ; Ley, C ; Sarkar, A.
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19. Alternative Moment Method for wind energy potential and turbine energy output estimation. (2018). Akda, Seyit Ahmet ; Guler, Onder.
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20. Estimation of wind speed probability density function using a mixture of two truncated normal distributions. (2018). Oliveti, Giuseppe ; Labonia, Ester ; Mazzeo, Domenico.
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21. Assessment of onshore wind energy potential under different geographical climate conditions in China. (2018). Li, YI ; Wu, Xiao-Peng ; Tee, Kong Fah.
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22. Balancing low-carbon power dispatching strategy for wind power integrated system. (2018). Zhou, Peng ; Yu, Xianyu ; Zhang, Mingming ; Jin, Jingliang ; Din, Hao.
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23. Evaluation of wind energy potential in Moroccos coastal regions. (2017). Saidur, R ; Zamzoum, O ; Islam, M R ; Jamil, A ; Derouich, A ; Allouhi, A ; Kousksou, T.
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24. A review of Weibull functions in wind sector. (2017). Wais, Piotr .
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25. Comparison of numerical methods and metaheuristic optimization algorithms for estimating parameters for wind energy potential assessment in low wind regions. (2017). Geng, Wei ; Wu, Jie ; Wang, Jianzhou ; Jiang, Haiyan.
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26. Total Site Heat Integration planning and design for industrial, urban and renewable systems. (2017). Theo, Wai Lip ; Wan, Sharifah Rafidah ; Varbanov, Petar Sabev ; Liew, Peng Yen ; Kleme, Jii Jaromir ; Lim, Jeng Shiun ; Manan, Zainuddin Abdul.
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27. Wind energy potential and economic assessment of four locations in Sistan and Balouchestan province in Iran. (2017). Soltani, Nima ; Fazelpour, Farivar ; Markarian, Elin .
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28. Two and three-parameter Weibull distribution in available wind power analysis. (2017). Wais, Piotr .
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29. Surrogate worth trade-off method for multi-objective thermal power load dispatch. (2017). Singh, Nirbhow Jap ; Dhillon, J S ; Kothari, D P.
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30. A modified gravitational search algorithm based on a non-dominated sorting genetic approach for hydro-thermal-wind economic emission dispatching. (2017). Lu, Peng ; Zhou, Jianzhong ; Chen, Fang ; Li, Chunlong ; Wang, Chao.
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31. On the selection of bivariate parametric models for wind data. (2017). Soukissian, Takvor H ; Karathanasi, Flora E.
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32. Probability Density Function Characterization for Aggregated Large-Scale Wind Power Based on Weibull Mixtures. (2016). Martn-Martnez, Sergio ; Kessler, Mathieu ; Bueso, Mara C ; Zhang, Jie ; Gmez-Lzaro, Emilio ; Hodge, Bri-Mathias ; Molina-Garca, Angel.
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33. Reliability Analysis and Overload Capability Assessment of Oil-Immersed Power Transformers. (2016). Zhao, Weigang ; Wu, Jie ; Wang, Jianzhou.
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36. Heterogeneous mixture distributions for modeling wind speed, application to the UAE. (2016). , Taha ; Lee, Taesam ; Shin, Ju-Young.
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37. Jensen€“Shannon information of the coherent system lifetime. (2016). Zohrevand, Younes ; Ebrahimi, Nader ; Asadi, Majid ; Soofi, Ehsan S.
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38. The combined economic environmental dispatch using new hybrid metaheuristic. (2016). Gherbi, Yamina Ahlem ; Bouzeboudja, Hamid .
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39. Evolutionary algorithms for power generation planning with uncertain renewable energy. (2016). Ray, Tapabrata ; Elsayed, Saber M ; Sarker, Ruhul A ; Zaman, Forhad.
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40. Dispatching strategies for coordinating environmental awareness and risk perception in wind power integrated system. (2016). Zhou, Peng ; Qian, Shuqu ; Zhang, Mingming ; Jin, Jingliang.
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41. An innovative estimation method regarding Weibull parameters for wind energy applications. (2016). Usta, Ilhan.
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42. Dual estimation: Constructing building energy models from data sampled at low rate. (2016). Baldi, Simone ; Yuan, Shuai ; Endel, Petr ; Holub, Ondrej.
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43. A comparative study of biodiesel engine performance optimization using enhanced hybrid PSO–GA and basic GA. (2016). Kong, Song-Charng ; Ogren, Ryan M ; Zhang, Qiang.
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44. Comprehensive assessment of wind resources and the low-carbon economy: An empirical study in the Alxa and Xilin Gol Leagues of inner Mongolia, China. (2015). Dong, Yao ; Wang, Jianzhou ; Jiang, HE ; Lu, Haiyan.
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45. The chaotic global best artificial bee colony algorithm for the multi-area economic/emission dispatch. (2015). Secui, Dinu Calin.
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46. Implementing a model predictive control strategy on the dynamic economic emission dispatch problem with game theory based demand response programs. (2015). Xia, Xiaohua ; Nwulu, Nnamdi I.
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48. Investigation of offshore wind energy potential in Hong Kong based on Weibull distribution function. (2015). Shu, Z R ; Li, Q S ; Chan, P W.
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49. Economic performance indicators of wind energy based on wind speed stochastic modeling. (2015). Damico, Guglielmo ; Prattico, Flavio ; Petroni, Filippo.
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50. A review of technical challenges in planning and operation of remote area power supply systems. (2014). Tan, Yingjie ; Meegahapola, Lasantha ; Muttaqi, Kashem M..
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51. Environmental/economic power dispatch with wind power. (2014). Zhou, Peng ; Miao, Zhuang ; Jin, Jingliang.
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52. Study on the Maximum Entropy Principle applied to the annual wind speed probability distribution: A case study for observations of intertidal zone anemometer towers of Rudong in East China Sea. (2014). Liu, Zhi-Yuan ; Yu, Yong-Jing ; Zhang, Hua.
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53. Evaluation of wind energy potential as a power generation source for electricity production in Binalood, Iran. (2013). Ghalishooyan, Morteza ; Mirhosseini, Mojtaba ; Sefid, Mohammad ; Pour-Rezaei, Maryam ; Mostafaeipour, Ali ; Sedaghat, Ahmad ; Dinpashoh, Yagob.
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54. Analysis about sampling, uncertainties and selection of a reliable probabilistic model of wind speed data used on resource assessment. (2013). Rodriguez-Hernandez, O. ; Jaramillo, O. A. ; del Rio, J. A. ; Andaverde, J. A..
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55. Long-term wind resource and uncertainty estimation using wind records from Scotland as example. (2013). Fruh, Wolf-Gerrit.
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56. Use of multi-parameter distributions for offshore wind speed modeling: The Johnson SB distribution. (2013). Soukissian, Takvor.
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57. Rotationally sampled spectrum approach for simulation of wind speed turbulence in large wind turbines. (2013). Ceang, E. ; Burlibaa, A..
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58. Incorporating multiple correlations among wind speeds, photovoltaic powers and bus loads in composite system reliability evaluation. (2013). Qin, Zhilong ; Xiong, Xiaofu ; Li, Wenyuan.
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59. Intelligent optimized wind resource assessment and wind turbines selection in Huitengxile of Inner Mongolia, China. (2013). Dong, Yao ; Shi, Xiaomeng ; Wang, Jianzhou ; Jiang, HE.
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60. Wind energy potential assessment considering the uncertainties due to limited data. (2013). Jung, Sungmoon ; Kwon, Soon-Duck ; Vanli, Arda O..
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61. Generalized feed-forward based method for wind energy prediction. (2013). Kolhe, Mohan ; Celik, Ali N..
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62. PDF models and synthetic model for the wind speed fluctuations based on the resolution of Langevin equation. (2012). Calif, Rudy.
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63. Assessment of the power reduction of wind farms under extreme wind condition by a high resolution simulation model. (2012). Sun, Yuan-zhang ; Gao, Wen-zhong ; Cheng, Lin ; Lin, Jin.
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64. Fractal dimension of wind speed time series. (2012). Lin, Tsung-Chi ; Chang, Tian-Pau ; Chen, Pai-Hsun ; Jang, Horng-Yuan ; Ko, Hong-Hsi ; Liu, Feng-Jiao ; Liang, Ying-Hsin.
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65. Theoretical derivation of wind power probability distribution function and applications. (2012). En, Zekai ; Erdik, Tarkan ; Dabanla, asmail ; Altunkaynak, Abdsselam.
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