IJBTT

Evolution of Technical Workforce with AI: What Future Holds?
	© 2024 by IJCTT Journal
	Volume-72 Issue-4
	Year of Publication : 2024
	Authors : Anubhav Seth
	DOI :  10.14445/22312803/IJCTT-V72I4P103

How to Cite?

Anubhav Seth, "Evolution of Technical Workforce with AI: What Future Holds?," International Journal of Computer Trends and Technology, vol. 72, no. 4, pp. 24-33, 2024. Crossref, https://doi.org/10.14445/22312803/IJCTT-V72I4P103

Abstract
Estimated technological progress is expected to have an impact on the workforce, necessitating the need for many individuals to acquire new skills. Artificial Intelligence (AI) has the potential to replace numerous jobs, yet it can also empower workers to perform the tasks of multiple individuals. Advancements in generative AI with sophisticated natural language skills have expanded the potential for automation across a broader range of professions. Although researchers have been analyzing the effects of AI on workforce results for the last twenty years, there is a lack of a comprehensive scholarly overview of this research. This article offers a viewpoint on the future of work and assesses the influence of technological advancements on the workforce with AI. This review is the first of its kind to investigate the connection between AI and different technical workforce results. After conducting a thorough review and analysis of the available literature, we have examined and compared 22 papers from 15 top international journals. This study explores the possible advantages and drawbacks of incorporating AI into different technical fields. Moreover, the document delves into methods for getting the workforce ready for the future influenced by AI, such as education and training programs. This research provides valuable insights into the ongoing discussion about the future of work by examining the opportunities and challenges posed by the changing technical workforce with AI.

Keywords
Artificial Intelligence, Technical skills, Workforce AI, Intelligent systems, AI Implementation, Employees.

Reference

[1] Thomas H. Davenport, and Rajeev Ronanki, “Artificial Intelligence for the Real World,” Harvard Business Review, vol. 96, no. 1, pp. 108-116, 2018.
[Google Scholar] [Publisher Link]
[2] Wenjuan Fan et al., “Investigating the Impacting Factors for the Healthcare Professionals to Adopt Artificial Intelligence-based Medical Diagnosis Support System (AIMDSS),” Annals of Operations Research, vol. 294, pp. 567-592, 2020.
[CrossRef] [Google Scholar] [Publisher Link]
[3] Quoc Chuong Nguyen et al., “Qsun: An Open-source Platform towards Practical Quantum Machine Learning Applications,” Machine Learning: Science and Technology, vol. 3, no. 1, pp. 1-23, 2022.
[CrossRef] [Google Scholar] [Publisher Link]
[4] Maira Zulfiqar, Muhammad Noman Malik, and Huma Hayat Khan, “Microtasking Activities in Crowdsourced Software Development: A Systematic Literature Review,” IEEE Access, vol. 10, pp. 24721-24737, 2022.
[CrossRef] [Google Scholar] [Publisher Link]
[5] Carrie J. Cai et al., “"Hello AI": Uncovering the Onboarding Needs of Medical Practitioners for Human-AI Collaborative Decisionmaking,” Proceedings of the ACM on Human-computer Interaction, vol. 3, no. 104, pp. 1-24, 2019.
[CrossRef] [Google Scholar] [Publisher Link]
[6] Mohammad Hossein Jarrahi, “Artificial Intelligence and The Future of Work: Human-AI Symbiosis in Organizational Decision Making,” Business Horizons, vol. 61, no. 4, pp. 577-586, 2018.
[CrossRef] [Google Scholar] [Publisher Link]
[7] F. Schwendicke, W. Samek, and J. Krois, “Artificial Intelligence in Dentistry: Chances and Challenges,” Journal of Dental Research, vol. 99, no. 7, pp. 769-774, 2020.
[CrossRef] [Google Scholar] [Publisher Link]
[8] Nada Alasiri, and Zenah AlKubaisy, “Exploring the Role of Leadership, Work Environment, It Alignment and Company Performance on the Digital Transformation: A Study on the Private Sector Companies in Western Region, Saudi Arabia,” International Journal of Professional Business Review, vol. 7, no. 2, 2022.
[Google Scholar] [Publisher Link]
[9] Margaret A. Goralski, Tay Keong Tan, “Artificial Intelligence and Sustainable Development,” The International Journal of Management Education, vol. 18, no. 1, 2020.
[CrossRef] [Google Scholar] [Publisher Link]
[10] Abid Haleem et al., “Artificial Intelligence (AI) Applications in Orthopaedics: An Innovative Technology to Embrace,” Journal of Clinical Orthopaedics and Trauma, vol. 11, no. 1, 2020.
[CrossRef] [Google Scholar] [Publisher Link]
[11] Jay Lee, Jaskaran Singh, and Moslem Azamfar, “Industrial Artificial Intelligence,” arXiv Preprint, 2019.
[CrossRef] [Google Scholar] [Publisher Link]
[12] Jeff Loucks, Thomas H. Davenport, David Schatsky, State of AI in the Enterprise, 2nd Edition, Deloitte Insights, 2018. [Online]. Available: https://www2.deloitte.com/xe/en/insights/focus/cognitive-technologies/state-of-ai-and-intelligent-automation-in-business-survey1.html
[13] Su-In Lee et al., “A Machine Learning Approach to Integrate Big Data for Precision Medicine in Acute Myeloid Leukemia,” Nature Communications, vol. 9, no. 42, pp. 1-13, 2018.
[CrossRef] [Google Scholar] [Publisher Link]
[14] Mohammad Pourhomayoun, and Mahdi Shakibi, “Predicting Mortality Risk in Patients with COVID-19 Using Artificial Intelligence to Help Medical Decision-making,” Smart Health, vol. 20, 2021.
[CrossRef] [Publisher Link]
[15] Hyung-Jun Kim et al., “An Easy-to-use Machine Learning Model to Predict the Prognosis of Patients with COVID-19: Retrospective Cohort Study,” Journal of Medical Internet Research, vol. 22, no. 11, pp. 1-12, 2020.
[CrossRef] [Google Scholar] [Publisher Link]
[16] Young Juhn, and Hongfang Liu, “Artificial Intelligence Approaches Using Natural Language Processing to Advance EHR-based Clinical Research,” Journal of Allergy and Clinical Immunology, vol. 145, no. 2, pp. 463-469, 2020.
[CrossRef] [Google Scholar] [Publisher Link]
[17] Peter Hofmann, Caroline Samp, and Nils Urbach, “Robotic Process Automation,” Electronic Markets, vol. 30, pp. 99-106, 2020.
[CrossRef] [Google Scholar] [Publisher Link]
[18] Iqbal H. Sarker, “Machine Learning: Algorithms, Real-world Applications and Research Directions,” SN Computer Science, vol. 2, no. 160, 2021.
[CrossRef] [Google Scholar] [Publisher Link]
19] Carlos Tam et al., “The Factors Influencing the Success of On-going Agile Software Development Projects,” International Journal of Project Management, vol. 38, no. 3, pp. 165-176, 2020.
[CrossRef] [Google Scholar] [Publisher Link]
[20] Omid Kebriyaii et al., “Application of Three Metaheuristic Algorithms to Time-cost-quality Trade-off Project Scheduling Problem for Construction Projects Considering Time Value of Money,” Symmetry, vol. 13, no. 12, pp. 1-25, 2021.
[CrossRef] [Google Scholar] [Publisher Link]
[21] Shengbin Liang et al., “An Improved Ant Colony Optimization Algorithm Based on Context for Tourism Route Planning,” PLoS One, vol. 16, no. 9, 2021.
[CrossRef] [Google Scholar] [Publisher Link]
[22] Dac-Nhuong Le et al., “Optimizing Bidders Selection of Multi-Round Procurement Problem in Software Project Management Using Parallel Max-Min Ant System Algorithm,” Computers, Materials & Continua, vol. 66, no. 1, 2021.
[CrossRef] [Google Scholar] [Publisher Link]
[23] Bill Cope, Mary Kalantzis, and Duane Searsmith, “Artificial Intelligence for Education: Knowledge and Its Assessment in AI-enabled Learning Ecologies,” Educational Philosophy and Theory, vol. 53, no. 12, pp. 1229-1245, 2021.
[CrossRef] [Google Scholar] [Publisher Link]
[24] Pu Song, and Xiang Wang, “A Bibliometric Analysis of Worldwide Educational Artificial Intelligence Research Development in Recent Twenty Years,” Asia Pacific Education Review, vol. 21, pp. 473–486, 2020.
[CrossRef] [Google Scholar] [Publisher Link]
[25] Xieling Chen et al., “Application and Theory Gaps During the Rise of Artificial Intelligence in Education,” Computers and Educations: Artificial Intelligence, vol. 1, 2020.
[CrossRef] [Google Scholar] [Publisher Link]