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Chen X., Cho T., Dou Y., Lev B., Predicting future earnings changes using machine learning and detailed financial data, Journal of Accounting Research, 60(2), 467–515, 2022.ChenX.ChoT.DouY.LevB.Predicting future earnings changes using machine learning and detailed financial dataJournal of Accounting Research6024675152022Search in Google Scholar
Chung I.H., Williams D.W., Do M.R., For better or worse? Revenue forecasting with machine learning approaches, Public Performance and Management Review, 45(5), 1133–1154, 2022.ChungI.H.WilliamsD.W.DoM.R.For better or worse? Revenue forecasting with machine learning approachesPublic Performance and Management Review455113311542022Search in Google Scholar
Kureljusic M., Reisch L., Revenue forecasting for European capital market-oriented firms: a comparative prediction study between financial analysts and machine learning models, Corporate Ownership and Control, 19(2), 159–178, 2022.KureljusicM.ReischL.Revenue forecasting for European capital market-oriented firms: a comparative prediction study between financial analysts and machine learning modelsCorporate Ownership and Control1921591782022Search in Google Scholar
Lin Y., Li B., Moiser T.M., Griffel L.M., Mahalik M.R., Kwon J., Alam S.M.S., Revenue prediction for integrated renewable energy and energy storage system using machine learning techniques, Journal of Energy Storage, 50, 104123, 2022.LinY.LiB.MoiserT.M.GriffelL.M.MahalikM.R.KwonJ.AlamS.M.S.Revenue prediction for integrated renewable energy and energy storage system using machine learning techniquesJournal of Energy Storage501041232022Search in Google Scholar
Mousa G.A., Elamir E.A.H., Hussainey K., Using machine learning methods to predict financial performance: Does disclosure tone matter?, International Journal of Disclosure and Governance, 19, 93–112, 2022.MousaG.A.ElamirE.A.H.HussaineyK.Using machine learning methods to predict financial performance: Does disclosure tone matter?International Journal of Disclosure and Governance19931122022Search in Google Scholar
Wasserbacher H., Spindler M., Machine learning for financial forecasting, planning and analysis: Recent developments and pitfalls, arXiv:2107.04851, 2021.WasserbacherH.SpindlerM.Machine learning for financial forecasting, planning and analysis: Recent developments and pitfallsarXiv:2107.048512021Search in Google Scholar
Ndikum P., Machine learning algorithms for financial asset price forecasting, arXiv:2004.01504, 2020.NdikumP.Machine learning algorithms for financial asset price forecastingarXiv:2004.015042020Search in Google Scholar
Allen J., Giacoman K., Analytical approaches to macroeconomic forecasting: a study of profits through machine learning and deep learning, https://digital.wpi.edu/pdfviewer/nc580q60t, Accessed: January 1, 2020.AllenJ.GiacomanK.Analytical approaches to macroeconomic forecasting: a study of profits through machine learning and deep learninghttps://digital.wpi.edu/pdfviewer/nc580q60t, Accessed: January 1, 2020Search in Google Scholar
Piispanen N., Sundqvist R., Vuotila R., Matilainen V., Emerging Technology Adoption and Use, Chapter: Applications of Deep Learning in Finance, ISBN: 978-952-03-1572-6, 1–181, 2020.PiispanenN.SundqvistR.VuotilaR.MatilainenV.Emerging Technology Adoption and Use, Chapter: Applications of Deep Learning in Finance978-952-03-1572-611812020Search in Google Scholar
Huang C.H., Hsieh S.H., Predicting BIM labor cost with random forest and simple linear regression, Automation in Construction, 118(103280), 1–16, 2020.HuangC.H.HsiehS.H.Predicting BIM labor cost with random forest and simple linear regressionAutomation in Construction1181032801162020Search in Google Scholar
Papadimitriou A., Patel U., Kim L., Bang G., Nematzadeh A., Liu X., A multi-faceted approach to large scale financial forecasting, Proceedings of the First ACM International Conference on AI in Finance, 15–16 October 2020, New York, USA, 5, 1–8, 2020.PapadimitriouA.PatelU.KimL.BangG.NematzadehA.LiuX.A multi-faceted approach to large scale financial forecastingProceedings of the First ACM International Conference on AI in Finance15–16 October 2020New York, USA5182020Search in Google Scholar
Weytjens H., Lohmann E., Kleinsteuber M., Cash flow prediction: MLP and LSTM compared to ARIMA and Prophet, Electronic Commerce Research, 21, 371–391, 2021.WeytjensH.LohmannE.KleinsteuberM.Cash flow prediction: MLP and LSTM compared to ARIMA and ProphetElectronic Commerce Research213713912021Search in Google Scholar
Rayhan M., Sultana S., Majid A., Financial factors analysis for acquisition premium and anticipation using extreme gradient boosting and deep recurrent neural network, B.Sc. Thesis, Brac University, Dhaka/Bangladesh, 1–58, 2019.RayhanM.SultanaS.MajidA.Financial factors analysis for acquisition premium and anticipation using extreme gradient boosting and deep recurrent neural networkB.Sc. ThesisBrac UniversityDhaka/Bangladesh1582019Search in Google Scholar
Lorenz T., Homburg C., Determinants of analysts’ revenue forecast accuracy, Review of Quantitative Finance and Accounting, 51, 389–431, 2018.LorenzT.HomburgC.Determinants of analysts’ revenue forecast accuracyReview of Quantitative Finance and Accounting513894312018Search in Google Scholar
Ding Y., Song X., Zen Y., Forecasting financial condition of Chinese listed companies based on support vector machine, Expert Systems with Applications, 34(4), 3081–3089, 2008.DingY.SongX.ZenY.Forecasting financial condition of Chinese listed companies based on support vector machineExpert Systems with Applications344308130892008Search in Google Scholar
Cheng Z., Zou C., Dong J., Outlier detection using isolation forest and local outlier factor, Proceedings of the Conference on Research in Adaptive and Convergent Systems, 24–27 September 2019, Chongqing, China, 161–168, 2019.ChengZ.ZouC.DongJ.Outlier detection using isolation forest and local outlier factorProceedings of the Conference on Research in Adaptive and Convergent Systems24–27 September 2019Chongqing, China1611682019Search in Google Scholar
Ding C., Peng H., Minimum redundancy feature selection from microarray gene expression data, Journal of Bioinformatics and Computational Biology, 03(02), 185–205, 2005.DingC.PengH.Minimum redundancy feature selection from microarray gene expression dataJournal of Bioinformatics and Computational Biology03021852052005Search in Google Scholar
Kumar K.M., Reddy A.R.M., A fast DBSCAN clustering algorithm by accelerating neighbor searching using Groups method, Pattern Recognition, 58, 39–48, 2016.KumarK.M.ReddyA.R.M.A fast DBSCAN clustering algorithm by accelerating neighbor searching using Groups methodPattern Recognition5839482016Search in Google Scholar
Xu R., Improvements to random forest methodology, Ph.D. Thesis, Iowa State University, Lowa/USA, 1–87, 2013.XuR.Improvements to random forest methodologyPh.D. ThesisIowa State UniversityLowa/USA1872013Search in Google Scholar
