Addressing the Reality Gap: A Three-Tension Framework for Agentic AI Adoption

Jason Fournier (Imagine Learning); Kacper {\L}odzikowski (Adam Mickiewicz University; Poland); Pozna\'n

arxiv: 2604.27245 · v2 · pith:BL2MVV46new · submitted 2026-04-29 · 💻 cs.CY · cs.AI

Addressing the Reality Gap: A Three-Tension Framework for Agentic AI Adoption

Jason Fournier (Imagine Learning) , Kacper {\L}odzikowski (Adam Mickiewicz University , Pozna\'n , Poland) This is my paper

Pith reviewed 2026-05-20 23:48 UTC · model grok-4.3

classification 💻 cs.CY cs.AI

keywords agentic AIAI in educationimplementation frameworkfeasibility tensionadaptation speedmission alignmentK-12 educationhigher education

0 comments

The pith

Successfully adopting agentic AI in education requires balancing implementation feasibility, adaptation speed, and mission alignment.

A machine-rendered reading of the paper's core claim, the machinery that carries it, and where it could break.

Generative AI reached classrooms ahead of institutional readiness, and the next wave of agentic systems that can plan and pursue goals independently brings both stronger personalization and bigger risks of disruption. The paper claims that handling this shift means addressing three linked tensions rather than treating AI adoption as a simple technical upgrade. Implementation feasibility asks whether schools can add the technology without exhausting resources or breaking daily routines. Adaptation speed points to the mismatch between rapid AI progress and the slower cycles of curriculum change and teacher training. Mission alignment insists that any deployment must protect equity, privacy, and established teaching values. The authors review early uses across sectors and education to make the tensions concrete, then supply the framework with application examples for K-12 and higher education.

Core claim

This chapter argues that successfully navigating these innovations requires balancing three core tensions: (1) Implementation Feasibility, or the practical capacity to integrate AI sustainably into real classrooms; (2) Adaptation Speed, or the mismatch between fast-evolving AI capabilities and the slower pace of educational change; and (3) Mission Alignment, or the need to ensure AI applications uphold educational values such as equity, privacy, and pedagogical integrity.

What carries the argument

The three-tension framework that guides decision-makers in evaluating and designing responsible AI deployments across K-12 and higher education by weighing feasibility, pace of change, and value alignment.

If this is right

The framework supplies concrete steps for planning AI initiatives that fit existing classroom structures.
It directs attention to the gap between AI development cycles and education system timelines.
It requires explicit checks that proposed AI tools support equity, privacy, and pedagogical goals.
Trends such as curriculum-linked AI agents and educator-informed design emerge as practical applications of the framework.
Educational leaders receive recommendations for proactive engagement that can shape the next decade of teaching and learning.

Where Pith is reading between the lines

These are editorial extensions of the paper, not claims the author makes directly.

The framework could be piloted in a small number of districts to track whether explicit tension management changes adoption outcomes or teacher satisfaction.
Similar tensions may appear in other regulated domains such as healthcare or social services when agentic AI is introduced.
Developing simple scoring rubrics for each tension would allow leaders to compare options more systematically.
Ongoing collaboration between AI builders and practicing educators could reduce the adaptation-speed tension before deployments occur.

Load-bearing premise

That the three identified tensions are the primary and sufficient set of considerations for guiding decision-makers in evaluating and designing responsible AI deployments across K-12 and higher education.

What would settle it

A documented case in which multiple schools or universities adopt agentic AI systems at scale while ignoring one or more of the three tensions and still achieve sustained, value-preserving results.

read the original abstract

Generative AI has rapidly entered education through free consumer tools, outpacing the ability of schools and universities to respond. Now a new wave of more autonomous agentic AI systems--with the capacity to plan and act towards goals--promises both greater educational personalization and greater disruption. This chapter argues that successfully navigating these innovations requires balancing three core tensions: (1) Implementation Feasibility, or the practical capacity to integrate AI sustainably into real classrooms; (2) Adaptation Speed, or the mismatch between fast-evolving AI capabilities and the slower pace of educational change; and (3) Mission Alignment, or the need to ensure AI applications uphold educational values such as equity, privacy, and pedagogical integrity. First, we review early evidence of generative and agentic AI in various sectors and in frontline education to illustrate these tensions in context. Then, we present a three-tension framework to guide decision-makers in evaluating and designing AI initiatives across K-12 and higher education. We provide examples of how the framework can be applied to plan responsible AI deployments, and we identify emerging trends--such as curriculum-linked AI agents and educator-informed AI design--along with open research directions. We conclude the chapter with recommendations for educational leaders to proactively engage with the opportunities and challenges of AI, so that this technology can be harnessed to enhance teaching and learning in the decade ahead.

Editorial analysis

A structured set of objections, weighed in public.

Desk editor's note, referee report, simulated authors' rebuttal, and a circularity audit. Tearing a paper down is the easy half of reading it; the pith above is the substance, this is the friction.

Referee Report

1 major / 2 minor

Summary. The manuscript proposes a prescriptive three-tension framework to guide responsible adoption of agentic AI systems in K-12 and higher education. The tensions are Implementation Feasibility (practical integration capacity), Adaptation Speed (mismatch between AI evolution and institutional change), and Mission Alignment (upholding equity, privacy, and pedagogical values). It reviews early evidence from sectors and education to illustrate the tensions, presents the framework with application examples, identifies trends such as curriculum-linked AI agents, and concludes with recommendations for educational leaders.

Significance. If the framework's central claim holds, it could provide a structured lens for decision-makers to evaluate AI initiatives and reduce the gap between rapid technological change and slower educational adaptation. The manuscript's strengths include its synthesis of early cross-sector evidence and concrete examples of framework application to planning responsible deployments; these elements make the work potentially useful for practitioners even in the absence of new empirical data.

major comments (1)

Abstract and framework presentation (following the evidence review): The claim that 'successfully navigating these innovations requires balancing three core tensions' is load-bearing for the paper's contribution, yet the selection process is not shown to be exhaustive or justified. No mapping of candidate tensions (e.g., regulatory lag, data sovereignty, or labor displacement), no stakeholder elicitation, and no argument that omitted factors are subsumed under the three are provided; the framework therefore rests on illustrative examples rather than a demonstrated completeness argument.

minor comments (2)

The abstract introduces 'agentic AI' and 'generative AI' without a concise operational definition or distinction, which may reduce accessibility for readers from education policy backgrounds.
Application examples in the framework section would benefit from explicit criteria or rubrics for how decision-makers should weigh or resolve conflicts among the three tensions in practice.

Simulated Author's Rebuttal

1 responses · 0 unresolved

We thank the referee for their constructive feedback on our manuscript. The comment raises a valid point about the justification for the three-tension framework, and we address it directly below while proposing a targeted revision to strengthen the presentation.

read point-by-point responses

Referee: Abstract and framework presentation (following the evidence review): The claim that 'successfully navigating these innovations requires balancing three core tensions' is load-bearing for the paper's contribution, yet the selection process is not shown to be exhaustive or justified. No mapping of candidate tensions (e.g., regulatory lag, data sovereignty, or labor displacement), no stakeholder elicitation, and no argument that omitted factors are subsumed under the three are provided; the framework therefore rests on illustrative examples rather than a demonstrated completeness argument.

Authors: We agree that the manuscript would benefit from greater transparency on how the three tensions were selected. The framework is presented as a conceptual synthesis derived from the preceding evidence review of generative and agentic AI applications across sectors and in education, where the recurring themes of practical integration barriers, temporal mismatches in adaptation, and value conflicts emerged as central. We do not claim the framework is exhaustive or derived from formal stakeholder elicitation or a comprehensive candidate mapping, as this is a synthesis chapter rather than an empirical study. In the revised version, we will insert a short subsection immediately before the framework presentation that (a) briefly describes the inductive process from the evidence review, (b) provides a concise mapping showing how omitted factors such as regulatory lag, data sovereignty, and labor displacement intersect with or are subsumed under the three tensions (e.g., regulatory lag primarily affects Adaptation Speed and Mission Alignment), and (c) explicitly states the framework's scope as a practical decision-making lens rather than a complete taxonomy. This revision will make the load-bearing claim more robust without altering the core contribution. revision: yes

Circularity Check

0 steps flagged

Three-tension framework is a conceptual synthesis without circular reduction

full rationale

The paper reviews early evidence from sectors and education to illustrate the three tensions, then presents the framework as a guide for decision-makers with application examples. No equations, fitted parameters, predictions, or self-referential definitions exist that reduce any claim to its own inputs by construction. The central assertion that navigating agentic AI requires balancing these tensions is an argumentative proposal, not a derivation that loops back via self-citation chains or ansatzes. The work draws on general external evidence and remains self-contained without load-bearing reductions to prior unverified assertions by the same authors.

Axiom & Free-Parameter Ledger

0 free parameters · 1 axioms · 0 invented entities

The paper rests on domain assumptions about the nature of educational change and the primacy of the three tensions; no free parameters or invented entities are introduced.

axioms (1)

domain assumption The three tensions (Implementation Feasibility, Adaptation Speed, Mission Alignment) are the core considerations that must be balanced for successful agentic AI adoption in education.
This premise is invoked directly in the argument that navigating innovations requires balancing these specific tensions.

pith-pipeline@v0.9.0 · 5789 in / 1273 out tokens · 28072 ms · 2026-05-20T23:48:29.987649+00:00 · methodology

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discussion (0)

Reference graph

Works this paper leans on

56 extracted references · 56 canonical work pages · 3 internal anchors

[1]

AAUP Committee on Artificial Intelligence and Academic Professions. (2024). Artificial intelligence and academic professions . American Association of University Professors. https://www.aaup.org/reports-publications/aaup-policies-reports/topical-reports/artificial-intelligence-and-academic. Accessed 10 October

work page 2024
[2]

J., Olivia, C., Oguibe, G., Sanusi, I

Agbo, F. J., Olivia, C., Oguibe, G., Sanusi, I. T., & Sani, G. (2025). Computing education using generative artificial intelligence tools: A systematic literature review. Computers and Education Open, 9 , 100266. https://doi.org/10.1016/j.caeo.2025.100266 Al-Abdullatif, A. M., & Alsubaie, M. A. (2024). ChatGPT in learning: Assessing students’ use intentio...

work page doi:10.1016/j.caeo.2025.100266 2025
[3]

https://doi.org/10.3390/bs14090845 Alfarwan, A. (2025). Generative AI use in K–12 education: A systematic review. Frontiers in Education, 10, Article 1647573. https://doi.org/10.3389/feduc.2025.1647573 Ali, D., Fatemi, Y., Boskabadi, E., Nikfar, M., Ugwuoke, J., & Ali, H. (2024). ChatGPT in teaching and learning: A systematic review. Education Sciences, 14 (6),

work page doi:10.3390/bs14090845 2025
[4]

https://doi.org/10.3390/educsci14060643 American Association of University Professors. (1966). Statement on government of colleges and universities . American Association of University Professors. https://www.aaup.org/report/statement-government-colleges-and-universities. Accessed 10 October

work page doi:10.3390/educsci14060643 1966
[5]

no chance

Ammari, T., Chen, M., Zaman, S. M. M., & Garimella, K. (2025). How students (really) use ChatGPT: Uncovering experiences among undergraduate students. arXiv . https://arxiv.org/abs/2505.24126 Anderson, N. (2007, April 30). Ballmer: iPhone has “no chance” of gaining significant market share. Ars Technica . https://arstechnica.com/information-technology/200...

work page arXiv 2025
[6]

Awad, E., Dsouza, S., Kim, R., Schulz, J., Henrich, J., Shariff, A., Bonnefon, J.-F., & Rahwan, I. (2018). The Moral Machine experiment. Nature, 563 (7729), 59–64. https://doi.org/10.1038/s41586-018-0637-6 Baig, M. I., & Yadegaridehkordi, E. (2024). ChatGPT in the higher education: A systematic literature review and research challenges. International Jour...

work page doi:10.1038/s41586-018-0637-6 2018
[7]

Becker, J., Rush, N., Barnes, B., & Rein, D. (2025). Measuring the impact of early-2025 AI on experienced open-source developer productivity (arXiv:2507.09089). arXiv . https://arxiv.org/abs/2507.09089 Behrens, J. T., DiCerbo, K. E., & Foltz, P. W. (2019). Assessment of complex performances in digital environments. The ANNALS of the American Academy of Po...

work page doi:10.1177/0002716219846850 2025
[8]

Bloom, B. S. (1984). The 2 sigma problem: The search for methods of group instruction as effective as one-to-one tutoring. Educational Researcher, 13(6), 4–16. https://doi.org/10.3102/0013189X013006004 Bloom, D. E., Prettner, K., Saadaoui, J., & Veruete, M. (2024). Artificial intelligence and the skill premium (NBER Working Paper No. 32430). National Bure...

work page doi:10.3102/0013189x013006004 1984
[9]

Center on Budget and Policy Priorities. (2024). Expiration of federal K-12 emergency funds could pose challenges for states . https://www.cbpp.org/research/state-budget-and-tax/expiration-of-federal-k-12-emergency-funds-could-pose-challenges-for. Accessed 13 October

work page 2024
[10]

(2024, June 26)

Chapman, B. (2024, June 26). Turmoil surrounds LA’s new AI student chatbot as tech firm furloughs staff just three months after launch. The 74 . https://www.the74million.org/article/turmoil-surrounds-las-new-ai-student-chatbot-as-tech-firm-furloughs-staff-just-3-months-after-launch. Accessed 20 October

work page 2024
[11]

J., Hitzig, Z., Ong, C., Shan, C

Chatterji, A., Cunningham, T., Deming, D. J., Hitzig, Z., Ong, C., Shan, C. Y., & Wadman, K. (2025, September). How people use ChatGPT (NBER Working Paper No. 34255). National Bureau of Economic Research . http://www.nber.org/papers/w34255. Accessed 29 October

work page 2025
[12]

super AI

Children’s Online Privacy Protection Act of 1998 . (1998). 15 U.S.C. §§ 6501–6506. Chiu, T. K. F. (2025). Developing intelligent-TPACK (I-TPACK) framework from unpacking AI literacy and competency: Implementation strategies and future research direction. Interactive Learning Environments, 33 (7), 4189–4192. https://doi.org/10.1080/10494820.2025.2545053 Ch...

work page doi:10.1080/10494820.2025.2545053 1998
[13]

CoSN, & CGCS. (2024). AI readiness rubric for K-12 school districts . Consortium for School Networking. https://www.cosn.org. Accessed 29 October

work page 2024
[14]

Deng, R., Jiang, M., Yu, X., Lu, Y., & Liu, S. (2025). Does ChatGPT enhance student learning? A systematic review and meta-analysis of experimental studies. Computers & Education, 227 , 105224. https://doi.org/10.1016/j.compedu.2024.105224 Dell’Acqua, F., McFowland, E., III, Mollick, E., Lifshitz-Assaf, H., Kellogg, K. C., Rajendran, S., Krayer, L., Cande...

work page doi:10.1016/j.compedu.2024.105224 2025
[15]

K., Schwartz, H

Diliberti, M. K., Schwartz, H. L., Doan, S., Shapiro, A., Rainey, L. R., & Lake, R. J. (2024). Using artificial intelligence tools in K–12 classrooms (Research Report No. RR-A956-21). RAND Corporation. https://doi.org/10.7249/RRA956-21 Doss, C. J., Bozick, R., Schwartz, H. L., Chu, L., Rainey, L. R., Woo, A., Reich, J., & Dukes, J. (2025). AI use in schoo...

work page doi:10.7249/rra956-21 2024
[16]

EDUCAUSE. (2024). AI readiness framework for higher education . https://www.educause.edu. Accessed 23 October

work page 2024
[17]

EDUCAUSE. (2025). AI ethics framework for higher education . https://www.educause.edu. Accessed 23 October

work page 2025
[18]

Eggerton, J. (2019). FCC: Cloud equivalents are eligible for E-Rate. Next TV . https://www.nexttv.com/news/fcc-cloud-equivalents-are-eligible-for-e-rate. Accessed 23 October

work page 2019
[19]

Eloundou, T., Manning, S., Mishkin, P., & Rock, D. (2024). GPTs are GPTs: Labor market impact potential of LLMs. Science, 384 , 1306–1308. https://doi.org/10.1126/science.adj0998 Ertmer, P. A. (1999). Addressing first- and second-order barriers to change: Strategies for technology integration. Educational Technology Research and Development, 47 (4), 47–61...

work page doi:10.1126/science.adj0998 2024
[20]

Figueroa de la Fuente, M., & Farhadian, G. (2025). Systematic review of the impact of artificial intelligence in higher education. Journal of Teaching and Learning, 19 (4), 72–96. https://doi.org/10.22329/jtl.v19i4.9849 Fittes, E. K. (2025, August 28). K-12 sales cycle: How long do districts need to make smart purchasing decisions? EdWeek Market Brief . h...

work page doi:10.22329/jtl.v19i4.9849 2025
[21]

Proceedings of the National Academy of Sciences 111(23) (Jun 2014)

Freeman, S., Eddy, S. L., McDonough, M., Smith, M. K., Okoroafor, N., Jordt, H., & Wenderoth, M. P. (2014). Active learning increases student performance in science, engineering, and mathematics. Proceedings of the National Academy of Sciences, 111 (23), 8410–8415. https://doi.org/10.1073/pnas.1319030111 Gallup, & Walton Family Foundation. (2025). Teachin...

work page doi:10.1073/pnas.1319030111 2014
[22]

García, E., & Weiss, E. (2022). Raising pay in public K–12 schools is critical to solving staffing shortages . Economic Policy Institute. https://www.epi.org/publication/solving-k-12-staffing-shortages. Accessed 23 October

work page 2022
[23]

(2025, June 25)

Gartner. (2025, June 25). Gartner predicts over 40% of agentic AI projects will be cancelled by end of 2027 . [Press release]. https://www.gartner.com/en/newsroom/press-releases/2025-06-25-gartner-predicts-over-40-percent-of-agentic-ai-projects-will-be-canceled-by-end-of-2027. Accessed 23 October

work page 2025
[24]

Gasser, U., & Schmitt, C. (2023). Regulatory sandboxes in artificial intelligence . Berkman Klein Center for Internet & Society Research Publication Series. Giannakos, M., Azevedo, R., Brusilovsky, P., Cukurova, M., Dimitriadis, Y., Hernandez-Leo, D., Järvelä, S., Mavrikis, M., & Rienties, B. (2024). The promise and challenges of generative AI in educatio...

work page doi:10.1080/0144929x.2024.2394886 2023
[25]

https://doi.org/10.26188/28822919 Gimbel, M., Kinder, M., Kendall, J., & Lee, M

University of Melbourne and KPMG International. https://doi.org/10.26188/28822919 Gimbel, M., Kinder, M., Kendall, J., & Lee, M. (2025, October 1). Evaluating the impact of AI on the labour market: Current state of affairs . The Budget Lab at Yale University. https://budgetlab.yale.edu/research/evaluating-impact-ai-labor-market-current-state-affairs. Acce...

work page doi:10.26188/28822919 2025
[26]

(2025, April 2)

Google DeepMind. (2025, April 2). Taking a responsible path to AGI . https://deepmind.google/discover/blog/taking-a-responsible-path-to-agi. Accessed 23 October

work page 2025
[27]

(2025, April 8)

Handa, K., Bent, D., Tamkin, A., McCain, M., Durmus, E., Stern, M., Schiraldi, M., Huang, S., Ritchie, S., Syverud, S., Jagadish, K., Vo, M., Bell, M., & Ganguli, D. (2025, April 8). Anthropic education report: How university students use Claude. Anthropic. https://www.anthropic.com/news/anthropic-education-report-how-university-students-use-claude. Acces...

work page 2025
[28]

Hardman, P. (2025). The changing relationship between education and tech: What Google DeepMind’s AI for Learning Forum signals about the next era of ed-tech. Dr Phil’s Newsletter. https://philippahardman.substack.com. Accessed 9 November

work page 2025
[29]

Hendriksen, M., & Lai, E. (2025). Asking to learn: What student queries to generative AI reveal about cognitive engagement . Pearson. Hendrycks, D., Song, D., Szegedy, C., Lee, H., Gal, Y., Brynjolfsson, E., et al. (2025, October 23). A definition of AGI (arXiv:2510.18212v2) [Preprint]. arXiv . https://arxiv.org/abs/2510.18212 Huang, K.-H., Prabhakar, A.,...

work page arXiv 2025
[30]

ISTE. (2025). ISTE standards and essential conditions for AI implementation . International Society for Technology in Education. https://www.iste.org. Accessed 25 October

work page 2025
[31]

X., Buhl, A., Sharma, A., & Bearman, M

Jensen, L. X., Buhl, A., Sharma, A., & Bearman, M. (2025). Generative AI and higher education: A review of claims from the first months of ChatGPT. Higher Education, 89 , 1145–1161. https://doi.org/10.1007/s10734-024-01265-3 K–12 Dive. (2024, September 30). With ESSER expiration, COVID-19 spending prepares for finale . https://www.k12dive.com/news/school-...

work page doi:10.1007/s10734-024-01265-3 2025
[32]

(2025, June 25)

Kergroach, S., & Héritier, J. (2025, June 25). Emerging divides in the transition to artificial intelligence (OECD Regional Development Papers No. 147). OECD Publishing. https://doi.org/10.1787/7376c776-en Koenecke, A., Nam, A., Lake, E., Nudell, J., Quartey, M., Mengesha, Z., Toups, C., Rickford, J. R., Jurafsky, D., & Goel, S. (2020). Racial disparities...

work page doi:10.1787/7376c776-en 2025
[33]

S., & Shivaraj, K

https://doi.org/10.3390/educsci15091133 Krishna Nk, R., Anupama, R. S., & Shivaraj, K. (2025). Artificial intelligence in radiology: Augmentation, not replacement. Cureus, 17 (6), e86247. https://doi.org/10.7759/cureus.86247 Liang, W., Yuksekgonul, M., Mao, Y., Wu, E., & Zou, J. (2023). GPT detectors are biased against non-native English writers. Patterns...

work page doi:10.3390/educsci15091133 2025
[34]

https://doi.org/10.3390/systems13100840 Lincoln Institute of Land Policy. (2022). Public schools and the property tax: A comparison of education funding models in three US states. Land Lines . https://www.lincolninst.edu/publications/articles/2022-04-public-schools-property-tax-comparison-education-models. Accessed 25 October

work page doi:10.3390/systems13100840 2022
[35]

Liu, R., Zenke, C., Liu, C., Holmes, A., Thornton, P., & Malan, D. J. (2024). Teaching CS50 with AI: Leveraging generative artificial intelligence in computer science education. In Proceedings of the 55th ACM Technical Symposium on Computer Science Education V. 1 (SIGCSE

work page 2024
[36]

123–129)

(pp. 123–129). Association for Computing Machinery. https://doi.org/10.1145/3626252.3630938 Luo, T., Muljana, P. S., Ren, X., & Young, D. (2025). Exploring instructional designers’ utilisation and perspectives on generative AI tools: A mixed methods study. Educational Technology Research and Development, 73 (2), 741–766. https://doi.org/10.1007/s11423-024...

work page doi:10.1145/3626252.3630938 2025
[37]

(2025, September 2)

Martin, B. (2025, September 2). Georgia Tech's Jill Watson outperforms ChatGPT in real classrooms . Georgia Tech Research. https://research.gatech.edu/georgia-techs-jill-watson-outperforms-chatgpt-real-classrooms Mazeika, M., Gatti, A., Menghini, C., Sehwag, U. M., Singhal, S., Orlovskiy, Y., Basart, S., Sharma, M., Peskoff, D., Lau, E., Lim, J., Carroll,...

work page doi:10.48550/arxiv.2510.26787 2025
[38]

McKinsey & Company. (2025a). Seizing the agentic AI advantage . McKinsey & Company. McKinsey & Company. (2025b). The state of AI: Global survey . McKinsey & Company. Metcalfe, R. (1995, December 4). From the ether: Predicting the internet’s catastrophic collapse and ghost sites galore in

work page 1995
[39]

T., & Nadler, D

Miller, M. T., & Nadler, D. P. (2019). Faculty senates and college presidents: Perspectives on collaboration. Journal of Research on the College President . https://collegepresidentresearch.uark.edu/2019/12/faculty-senates-and-college-presidents-perspectives-on-collaboration. Accessed 25 October

work page 2019
[40]

Mishra, P., & Koehler, M. J. (2006). Technological pedagogical content knowledge: A framework for teacher knowledge. Teachers College Record, 108 (6), 1017–1054. Mousa, D. (2025, September 25). AI isn’t replacing radiologists. Works in Progress . https://www.worksinprogress.news/p/why-ai-isnt-replacing-radiologists. Accessed 25 October

work page 2006
[41]

(2017, March 27)

Mukherjee, S. (2017, March 27). A.I. versus M.D.: What happens when diagnosis is automated? The New Yorker . https://www.newyorker.com/magazine/2017/04/03/ai-versus-md. Accessed 25 October

work page 2017
[42]

Noy, S., & Zhang, W. (2023). Experimental evidence on the productivity effects of generative artificial intelligence. Science, 381 (6654), 187–192. https://doi.org/10.1126/science.adh2586 OECD. (2024). Explanatory memorandum on the updated OECD definition of an AI system . OECD Publishing. https://doi.org/10.1787/623da898-en OECD. (2025a). Introducing the...

work page doi:10.1126/science.adh2586 2023
[43]

(2023, March)

OpenAI. (2023, March). GPT-4. OpenAI Blog. https://openai.com/index/gpt-4-research/. Accessed 25 October

work page 2023
[44]

(2024, September)

OpenAI. (2024, September). Introducing o1. OpenAI Blog. https://openai.com/blog. Accessed 25 October

work page 2024
[45]

WebCanvas: Benchmarking Web Agents in Online Environments

Pan, Y., Kong, D., Zhou, S., Cui, C., Leng, Y., Jiang, B., Liu, H., Shang, Y., Zhou, S., Wu, T., & Wu, Z. (2024, July 16). WebCanvas: Benchmarking web agents in online environments (arXiv:2406.12373) [Preprint]. arXiv . https://doi.org/10.48550/arXiv.2406.12373. Pearson. (2019). Aida Calculus [Mobile app]. Apple App Store. https://apps.apple.com. Accessed...

work page internal anchor Pith review Pith/arXiv arXiv doi:10.48550/arxiv.2406.12373 2024
[46]

Pearson. (2025b). Higher ed student AI survey report . Pearson.https://plc.pearson.com/sites/pearson-corp/files/2025-05/student-ai-tracker-spring-25-short-version-for-external-sharing.pdf. Accessed 22 October

work page 2025
[47]

Peng, S., Kalliamvakou, E., Cihon, P., & Demirer, M. (2023). The impact of AI on developer productivity: Evidence from GitHub Copilot (arXiv:2302.06590). arXiv . https://arxiv.org/abs/2302.06590 PwC. (2025, May). AI agent survey. https://www.pwc.com/us/en/tech-effect/ai-analytics/ai-agent-survey.html Rogers, E. M. (2003). Diffusion of innovations (5th ed....

work page internal anchor Pith review Pith/arXiv arXiv doi:10.1177/08959048241235405 2023
[48]

Texas Legislature. (2021). House Bill 3979: Relating to the social studies curriculum in public schools; and Senate Bill 3 . https://legiscan.com/TX/supplement/HB3979/id/197235. Accessed 22 October

work page 2021
[49]

(1966, February 25)

Time. (1966, February 25). The futurists: Looking toward A.D

work page 1966
[50]

UNESCO. (2021). AI and education: Guidance for policy-makers . UNESCO Publishing. UNESCO. (2025, September 2). UNESCO survey: Two-thirds of higher education institutions have or are developing guidance on AI use . https://www.unesco.org/en/articles/unesco-survey-two-thirds-higher-education-institutions-have-or-are-developing-guidance-ai-use. Accessed 22 October

work page 2021
[51]

US Department of Education. (2019). Supplement not supplant under Title I, Part A of the Elementary and Secondary Education Act of 1965, as amended by the Every Student Succeeds Act: Non-regulatory informational document . https://www.ed.gov/sites/ed/files/2020/02/snsfinalguidance06192019.pdf. Accessed 22 October

work page 2019
[52]

(2024, April 24)

US Department of Justice, Civil Rights Division. (2024, April 24). Nondiscrimination on the basis of disability; Accessibility of web information and services of state and local government entities [Final rule]. Federal Register, 89 , 31320–31568. US Government Accountability Office. (2020). K-12 education: School districts frequently identified multiple ...

work page 2024
[53]

Wang, J., & Fan, W. (2025). The effect of ChatGPT on students’ learning performance, learning perception, and higher-order thinking: Insights from a meta-analysis. Humanities and Social Sciences Communications, 12 ,

work page 2025
[54]

X., Wei, Z., & Wen, J.-R

https://doi.org/10.1057/s41599-025-04787-y Wang, L., Ma, C., Feng, X., Zhang, Z., Yang, H., Zhang, J., Chen, Z.-Y., Tang, J., Chen, X., Lin, Y., Zhao, W. X., Wei, Z., & Wen, J.-R. (2025). A survey on large language model-based autonomous agents. Frontiers of Computer Science . Advance online publication. https://doi.org/10.1007/s11704-024-40231-1 Wang, Y....

work page doi:10.1057/s41599-025-04787-y 2025
[55]

(2024, October)

https://doi.org/10.1186/s40359-025-01865-4 Weiner, S., Lake, R., & Rosner, J. (2024, October). AI is evolving, but teacher prep is lagging: A first look at teacher preparation program responses to AI . Center on Reinventing Public Education & AACTE. https://crpe.org/wp-content/uploads/Teacher-Prep-AI-2024.pdf. Accessed 22 October

work page doi:10.1186/s40359-025-01865-4 2024
[56]

OSWorld: Benchmarking Multimodal Agents for Open-Ended Tasks in Real Computer Environments

Xie, T., Zhang, D., Chen, J., Li, X., Zhao, S., Cao, R., Hua, T. J., Cheng, Z., Shin, D., Lei, F., Liu, Y., Xu, Y., Zhou, S., Savarese, S., Xiong, C., Zhong, V., & Yu, T. (2024). OSWorld: Benchmarking multimodal agents for open-ended tasks in real computer environments [Preprint]. arXiv . https://doi.org/10.48550/arXiv.2404.07972 Zhou, S., Xu, F. F., Zhu,...

work page internal anchor Pith review Pith/arXiv arXiv doi:10.48550/arxiv.2404.07972 2024

[1] [1]

AAUP Committee on Artificial Intelligence and Academic Professions. (2024). Artificial intelligence and academic professions . American Association of University Professors. https://www.aaup.org/reports-publications/aaup-policies-reports/topical-reports/artificial-intelligence-and-academic. Accessed 10 October

work page 2024

[2] [2]

J., Olivia, C., Oguibe, G., Sanusi, I

Agbo, F. J., Olivia, C., Oguibe, G., Sanusi, I. T., & Sani, G. (2025). Computing education using generative artificial intelligence tools: A systematic literature review. Computers and Education Open, 9 , 100266. https://doi.org/10.1016/j.caeo.2025.100266 Al-Abdullatif, A. M., & Alsubaie, M. A. (2024). ChatGPT in learning: Assessing students’ use intentio...

work page doi:10.1016/j.caeo.2025.100266 2025

[3] [3]

https://doi.org/10.3390/bs14090845 Alfarwan, A. (2025). Generative AI use in K–12 education: A systematic review. Frontiers in Education, 10, Article 1647573. https://doi.org/10.3389/feduc.2025.1647573 Ali, D., Fatemi, Y., Boskabadi, E., Nikfar, M., Ugwuoke, J., & Ali, H. (2024). ChatGPT in teaching and learning: A systematic review. Education Sciences, 14 (6),

work page doi:10.3390/bs14090845 2025

[4] [4]

https://doi.org/10.3390/educsci14060643 American Association of University Professors. (1966). Statement on government of colleges and universities . American Association of University Professors. https://www.aaup.org/report/statement-government-colleges-and-universities. Accessed 10 October

work page doi:10.3390/educsci14060643 1966

[5] [5]

no chance

Ammari, T., Chen, M., Zaman, S. M. M., & Garimella, K. (2025). How students (really) use ChatGPT: Uncovering experiences among undergraduate students. arXiv . https://arxiv.org/abs/2505.24126 Anderson, N. (2007, April 30). Ballmer: iPhone has “no chance” of gaining significant market share. Ars Technica . https://arstechnica.com/information-technology/200...

work page arXiv 2025

[6] [6]

Awad, E., Dsouza, S., Kim, R., Schulz, J., Henrich, J., Shariff, A., Bonnefon, J.-F., & Rahwan, I. (2018). The Moral Machine experiment. Nature, 563 (7729), 59–64. https://doi.org/10.1038/s41586-018-0637-6 Baig, M. I., & Yadegaridehkordi, E. (2024). ChatGPT in the higher education: A systematic literature review and research challenges. International Jour...

work page doi:10.1038/s41586-018-0637-6 2018

[7] [7]

Becker, J., Rush, N., Barnes, B., & Rein, D. (2025). Measuring the impact of early-2025 AI on experienced open-source developer productivity (arXiv:2507.09089). arXiv . https://arxiv.org/abs/2507.09089 Behrens, J. T., DiCerbo, K. E., & Foltz, P. W. (2019). Assessment of complex performances in digital environments. The ANNALS of the American Academy of Po...

work page doi:10.1177/0002716219846850 2025

[8] [8]

Bloom, B. S. (1984). The 2 sigma problem: The search for methods of group instruction as effective as one-to-one tutoring. Educational Researcher, 13(6), 4–16. https://doi.org/10.3102/0013189X013006004 Bloom, D. E., Prettner, K., Saadaoui, J., & Veruete, M. (2024). Artificial intelligence and the skill premium (NBER Working Paper No. 32430). National Bure...

work page doi:10.3102/0013189x013006004 1984

[9] [9]

Center on Budget and Policy Priorities. (2024). Expiration of federal K-12 emergency funds could pose challenges for states . https://www.cbpp.org/research/state-budget-and-tax/expiration-of-federal-k-12-emergency-funds-could-pose-challenges-for. Accessed 13 October

work page 2024

[10] [10]

(2024, June 26)

Chapman, B. (2024, June 26). Turmoil surrounds LA’s new AI student chatbot as tech firm furloughs staff just three months after launch. The 74 . https://www.the74million.org/article/turmoil-surrounds-las-new-ai-student-chatbot-as-tech-firm-furloughs-staff-just-3-months-after-launch. Accessed 20 October

work page 2024

[11] [11]

J., Hitzig, Z., Ong, C., Shan, C

Chatterji, A., Cunningham, T., Deming, D. J., Hitzig, Z., Ong, C., Shan, C. Y., & Wadman, K. (2025, September). How people use ChatGPT (NBER Working Paper No. 34255). National Bureau of Economic Research . http://www.nber.org/papers/w34255. Accessed 29 October

work page 2025

[12] [12]

super AI

Children’s Online Privacy Protection Act of 1998 . (1998). 15 U.S.C. §§ 6501–6506. Chiu, T. K. F. (2025). Developing intelligent-TPACK (I-TPACK) framework from unpacking AI literacy and competency: Implementation strategies and future research direction. Interactive Learning Environments, 33 (7), 4189–4192. https://doi.org/10.1080/10494820.2025.2545053 Ch...

work page doi:10.1080/10494820.2025.2545053 1998

[13] [13]

CoSN, & CGCS. (2024). AI readiness rubric for K-12 school districts . Consortium for School Networking. https://www.cosn.org. Accessed 29 October

work page 2024

[14] [14]

Deng, R., Jiang, M., Yu, X., Lu, Y., & Liu, S. (2025). Does ChatGPT enhance student learning? A systematic review and meta-analysis of experimental studies. Computers & Education, 227 , 105224. https://doi.org/10.1016/j.compedu.2024.105224 Dell’Acqua, F., McFowland, E., III, Mollick, E., Lifshitz-Assaf, H., Kellogg, K. C., Rajendran, S., Krayer, L., Cande...

work page doi:10.1016/j.compedu.2024.105224 2025

[15] [15]

K., Schwartz, H

Diliberti, M. K., Schwartz, H. L., Doan, S., Shapiro, A., Rainey, L. R., & Lake, R. J. (2024). Using artificial intelligence tools in K–12 classrooms (Research Report No. RR-A956-21). RAND Corporation. https://doi.org/10.7249/RRA956-21 Doss, C. J., Bozick, R., Schwartz, H. L., Chu, L., Rainey, L. R., Woo, A., Reich, J., & Dukes, J. (2025). AI use in schoo...

work page doi:10.7249/rra956-21 2024

[16] [16]

EDUCAUSE. (2024). AI readiness framework for higher education . https://www.educause.edu. Accessed 23 October

work page 2024

[17] [17]

EDUCAUSE. (2025). AI ethics framework for higher education . https://www.educause.edu. Accessed 23 October

work page 2025

[18] [18]

Eggerton, J. (2019). FCC: Cloud equivalents are eligible for E-Rate. Next TV . https://www.nexttv.com/news/fcc-cloud-equivalents-are-eligible-for-e-rate. Accessed 23 October

work page 2019

[19] [19]

Eloundou, T., Manning, S., Mishkin, P., & Rock, D. (2024). GPTs are GPTs: Labor market impact potential of LLMs. Science, 384 , 1306–1308. https://doi.org/10.1126/science.adj0998 Ertmer, P. A. (1999). Addressing first- and second-order barriers to change: Strategies for technology integration. Educational Technology Research and Development, 47 (4), 47–61...

work page doi:10.1126/science.adj0998 2024

[20] [20]

Figueroa de la Fuente, M., & Farhadian, G. (2025). Systematic review of the impact of artificial intelligence in higher education. Journal of Teaching and Learning, 19 (4), 72–96. https://doi.org/10.22329/jtl.v19i4.9849 Fittes, E. K. (2025, August 28). K-12 sales cycle: How long do districts need to make smart purchasing decisions? EdWeek Market Brief . h...

work page doi:10.22329/jtl.v19i4.9849 2025

[21] [21]

Proceedings of the National Academy of Sciences 111(23) (Jun 2014)

Freeman, S., Eddy, S. L., McDonough, M., Smith, M. K., Okoroafor, N., Jordt, H., & Wenderoth, M. P. (2014). Active learning increases student performance in science, engineering, and mathematics. Proceedings of the National Academy of Sciences, 111 (23), 8410–8415. https://doi.org/10.1073/pnas.1319030111 Gallup, & Walton Family Foundation. (2025). Teachin...

work page doi:10.1073/pnas.1319030111 2014

[22] [22]

García, E., & Weiss, E. (2022). Raising pay in public K–12 schools is critical to solving staffing shortages . Economic Policy Institute. https://www.epi.org/publication/solving-k-12-staffing-shortages. Accessed 23 October

work page 2022

[23] [23]

(2025, June 25)

Gartner. (2025, June 25). Gartner predicts over 40% of agentic AI projects will be cancelled by end of 2027 . [Press release]. https://www.gartner.com/en/newsroom/press-releases/2025-06-25-gartner-predicts-over-40-percent-of-agentic-ai-projects-will-be-canceled-by-end-of-2027. Accessed 23 October

work page 2025

[24] [24]

Gasser, U., & Schmitt, C. (2023). Regulatory sandboxes in artificial intelligence . Berkman Klein Center for Internet & Society Research Publication Series. Giannakos, M., Azevedo, R., Brusilovsky, P., Cukurova, M., Dimitriadis, Y., Hernandez-Leo, D., Järvelä, S., Mavrikis, M., & Rienties, B. (2024). The promise and challenges of generative AI in educatio...

work page doi:10.1080/0144929x.2024.2394886 2023

[25] [25]

https://doi.org/10.26188/28822919 Gimbel, M., Kinder, M., Kendall, J., & Lee, M

University of Melbourne and KPMG International. https://doi.org/10.26188/28822919 Gimbel, M., Kinder, M., Kendall, J., & Lee, M. (2025, October 1). Evaluating the impact of AI on the labour market: Current state of affairs . The Budget Lab at Yale University. https://budgetlab.yale.edu/research/evaluating-impact-ai-labor-market-current-state-affairs. Acce...

work page doi:10.26188/28822919 2025

[26] [26]

(2025, April 2)

Google DeepMind. (2025, April 2). Taking a responsible path to AGI . https://deepmind.google/discover/blog/taking-a-responsible-path-to-agi. Accessed 23 October

work page 2025

[27] [27]

(2025, April 8)

Handa, K., Bent, D., Tamkin, A., McCain, M., Durmus, E., Stern, M., Schiraldi, M., Huang, S., Ritchie, S., Syverud, S., Jagadish, K., Vo, M., Bell, M., & Ganguli, D. (2025, April 8). Anthropic education report: How university students use Claude. Anthropic. https://www.anthropic.com/news/anthropic-education-report-how-university-students-use-claude. Acces...

work page 2025

[28] [28]

Hardman, P. (2025). The changing relationship between education and tech: What Google DeepMind’s AI for Learning Forum signals about the next era of ed-tech. Dr Phil’s Newsletter. https://philippahardman.substack.com. Accessed 9 November

work page 2025

[29] [29]

Hendriksen, M., & Lai, E. (2025). Asking to learn: What student queries to generative AI reveal about cognitive engagement . Pearson. Hendrycks, D., Song, D., Szegedy, C., Lee, H., Gal, Y., Brynjolfsson, E., et al. (2025, October 23). A definition of AGI (arXiv:2510.18212v2) [Preprint]. arXiv . https://arxiv.org/abs/2510.18212 Huang, K.-H., Prabhakar, A.,...

work page arXiv 2025

[30] [30]

ISTE. (2025). ISTE standards and essential conditions for AI implementation . International Society for Technology in Education. https://www.iste.org. Accessed 25 October

work page 2025

[31] [31]

X., Buhl, A., Sharma, A., & Bearman, M

Jensen, L. X., Buhl, A., Sharma, A., & Bearman, M. (2025). Generative AI and higher education: A review of claims from the first months of ChatGPT. Higher Education, 89 , 1145–1161. https://doi.org/10.1007/s10734-024-01265-3 K–12 Dive. (2024, September 30). With ESSER expiration, COVID-19 spending prepares for finale . https://www.k12dive.com/news/school-...

work page doi:10.1007/s10734-024-01265-3 2025

[32] [32]

(2025, June 25)

Kergroach, S., & Héritier, J. (2025, June 25). Emerging divides in the transition to artificial intelligence (OECD Regional Development Papers No. 147). OECD Publishing. https://doi.org/10.1787/7376c776-en Koenecke, A., Nam, A., Lake, E., Nudell, J., Quartey, M., Mengesha, Z., Toups, C., Rickford, J. R., Jurafsky, D., & Goel, S. (2020). Racial disparities...

work page doi:10.1787/7376c776-en 2025

[33] [33]

S., & Shivaraj, K

https://doi.org/10.3390/educsci15091133 Krishna Nk, R., Anupama, R. S., & Shivaraj, K. (2025). Artificial intelligence in radiology: Augmentation, not replacement. Cureus, 17 (6), e86247. https://doi.org/10.7759/cureus.86247 Liang, W., Yuksekgonul, M., Mao, Y., Wu, E., & Zou, J. (2023). GPT detectors are biased against non-native English writers. Patterns...

work page doi:10.3390/educsci15091133 2025

[34] [34]

https://doi.org/10.3390/systems13100840 Lincoln Institute of Land Policy. (2022). Public schools and the property tax: A comparison of education funding models in three US states. Land Lines . https://www.lincolninst.edu/publications/articles/2022-04-public-schools-property-tax-comparison-education-models. Accessed 25 October

work page doi:10.3390/systems13100840 2022

[35] [35]

Liu, R., Zenke, C., Liu, C., Holmes, A., Thornton, P., & Malan, D. J. (2024). Teaching CS50 with AI: Leveraging generative artificial intelligence in computer science education. In Proceedings of the 55th ACM Technical Symposium on Computer Science Education V. 1 (SIGCSE

work page 2024

[36] [36]

123–129)

(pp. 123–129). Association for Computing Machinery. https://doi.org/10.1145/3626252.3630938 Luo, T., Muljana, P. S., Ren, X., & Young, D. (2025). Exploring instructional designers’ utilisation and perspectives on generative AI tools: A mixed methods study. Educational Technology Research and Development, 73 (2), 741–766. https://doi.org/10.1007/s11423-024...

work page doi:10.1145/3626252.3630938 2025

[37] [37]

(2025, September 2)

Martin, B. (2025, September 2). Georgia Tech's Jill Watson outperforms ChatGPT in real classrooms . Georgia Tech Research. https://research.gatech.edu/georgia-techs-jill-watson-outperforms-chatgpt-real-classrooms Mazeika, M., Gatti, A., Menghini, C., Sehwag, U. M., Singhal, S., Orlovskiy, Y., Basart, S., Sharma, M., Peskoff, D., Lau, E., Lim, J., Carroll,...

work page doi:10.48550/arxiv.2510.26787 2025

[38] [38]

McKinsey & Company. (2025a). Seizing the agentic AI advantage . McKinsey & Company. McKinsey & Company. (2025b). The state of AI: Global survey . McKinsey & Company. Metcalfe, R. (1995, December 4). From the ether: Predicting the internet’s catastrophic collapse and ghost sites galore in

work page 1995

[39] [39]

T., & Nadler, D

Miller, M. T., & Nadler, D. P. (2019). Faculty senates and college presidents: Perspectives on collaboration. Journal of Research on the College President . https://collegepresidentresearch.uark.edu/2019/12/faculty-senates-and-college-presidents-perspectives-on-collaboration. Accessed 25 October

work page 2019

[40] [40]

Mishra, P., & Koehler, M. J. (2006). Technological pedagogical content knowledge: A framework for teacher knowledge. Teachers College Record, 108 (6), 1017–1054. Mousa, D. (2025, September 25). AI isn’t replacing radiologists. Works in Progress . https://www.worksinprogress.news/p/why-ai-isnt-replacing-radiologists. Accessed 25 October

work page 2006

[41] [41]

(2017, March 27)

Mukherjee, S. (2017, March 27). A.I. versus M.D.: What happens when diagnosis is automated? The New Yorker . https://www.newyorker.com/magazine/2017/04/03/ai-versus-md. Accessed 25 October

work page 2017

[42] [42]

Noy, S., & Zhang, W. (2023). Experimental evidence on the productivity effects of generative artificial intelligence. Science, 381 (6654), 187–192. https://doi.org/10.1126/science.adh2586 OECD. (2024). Explanatory memorandum on the updated OECD definition of an AI system . OECD Publishing. https://doi.org/10.1787/623da898-en OECD. (2025a). Introducing the...

work page doi:10.1126/science.adh2586 2023

[43] [43]

(2023, March)

OpenAI. (2023, March). GPT-4. OpenAI Blog. https://openai.com/index/gpt-4-research/. Accessed 25 October

work page 2023

[44] [44]

(2024, September)

OpenAI. (2024, September). Introducing o1. OpenAI Blog. https://openai.com/blog. Accessed 25 October

work page 2024

[45] [45]

WebCanvas: Benchmarking Web Agents in Online Environments

Pan, Y., Kong, D., Zhou, S., Cui, C., Leng, Y., Jiang, B., Liu, H., Shang, Y., Zhou, S., Wu, T., & Wu, Z. (2024, July 16). WebCanvas: Benchmarking web agents in online environments (arXiv:2406.12373) [Preprint]. arXiv . https://doi.org/10.48550/arXiv.2406.12373. Pearson. (2019). Aida Calculus [Mobile app]. Apple App Store. https://apps.apple.com. Accessed...

work page internal anchor Pith review Pith/arXiv arXiv doi:10.48550/arxiv.2406.12373 2024

[46] [46]

Pearson. (2025b). Higher ed student AI survey report . Pearson.https://plc.pearson.com/sites/pearson-corp/files/2025-05/student-ai-tracker-spring-25-short-version-for-external-sharing.pdf. Accessed 22 October

work page 2025

[47] [47]

Peng, S., Kalliamvakou, E., Cihon, P., & Demirer, M. (2023). The impact of AI on developer productivity: Evidence from GitHub Copilot (arXiv:2302.06590). arXiv . https://arxiv.org/abs/2302.06590 PwC. (2025, May). AI agent survey. https://www.pwc.com/us/en/tech-effect/ai-analytics/ai-agent-survey.html Rogers, E. M. (2003). Diffusion of innovations (5th ed....

work page internal anchor Pith review Pith/arXiv arXiv doi:10.1177/08959048241235405 2023

[48] [48]

Texas Legislature. (2021). House Bill 3979: Relating to the social studies curriculum in public schools; and Senate Bill 3 . https://legiscan.com/TX/supplement/HB3979/id/197235. Accessed 22 October

work page 2021

[49] [49]

(1966, February 25)

Time. (1966, February 25). The futurists: Looking toward A.D

work page 1966

[50] [50]

UNESCO. (2021). AI and education: Guidance for policy-makers . UNESCO Publishing. UNESCO. (2025, September 2). UNESCO survey: Two-thirds of higher education institutions have or are developing guidance on AI use . https://www.unesco.org/en/articles/unesco-survey-two-thirds-higher-education-institutions-have-or-are-developing-guidance-ai-use. Accessed 22 October

work page 2021

[51] [51]

US Department of Education. (2019). Supplement not supplant under Title I, Part A of the Elementary and Secondary Education Act of 1965, as amended by the Every Student Succeeds Act: Non-regulatory informational document . https://www.ed.gov/sites/ed/files/2020/02/snsfinalguidance06192019.pdf. Accessed 22 October

work page 2019

[52] [52]

(2024, April 24)

US Department of Justice, Civil Rights Division. (2024, April 24). Nondiscrimination on the basis of disability; Accessibility of web information and services of state and local government entities [Final rule]. Federal Register, 89 , 31320–31568. US Government Accountability Office. (2020). K-12 education: School districts frequently identified multiple ...

work page 2024

[53] [53]

Wang, J., & Fan, W. (2025). The effect of ChatGPT on students’ learning performance, learning perception, and higher-order thinking: Insights from a meta-analysis. Humanities and Social Sciences Communications, 12 ,

work page 2025

[54] [54]

X., Wei, Z., & Wen, J.-R

https://doi.org/10.1057/s41599-025-04787-y Wang, L., Ma, C., Feng, X., Zhang, Z., Yang, H., Zhang, J., Chen, Z.-Y., Tang, J., Chen, X., Lin, Y., Zhao, W. X., Wei, Z., & Wen, J.-R. (2025). A survey on large language model-based autonomous agents. Frontiers of Computer Science . Advance online publication. https://doi.org/10.1007/s11704-024-40231-1 Wang, Y....

work page doi:10.1057/s41599-025-04787-y 2025

[55] [55]

(2024, October)

https://doi.org/10.1186/s40359-025-01865-4 Weiner, S., Lake, R., & Rosner, J. (2024, October). AI is evolving, but teacher prep is lagging: A first look at teacher preparation program responses to AI . Center on Reinventing Public Education & AACTE. https://crpe.org/wp-content/uploads/Teacher-Prep-AI-2024.pdf. Accessed 22 October

work page doi:10.1186/s40359-025-01865-4 2024

[56] [56]

OSWorld: Benchmarking Multimodal Agents for Open-Ended Tasks in Real Computer Environments

Xie, T., Zhang, D., Chen, J., Li, X., Zhao, S., Cao, R., Hua, T. J., Cheng, Z., Shin, D., Lei, F., Liu, Y., Xu, Y., Zhou, S., Savarese, S., Xiong, C., Zhong, V., & Yu, T. (2024). OSWorld: Benchmarking multimodal agents for open-ended tasks in real computer environments [Preprint]. arXiv . https://doi.org/10.48550/arXiv.2404.07972 Zhou, S., Xu, F. F., Zhu,...

work page internal anchor Pith review Pith/arXiv arXiv doi:10.48550/arxiv.2404.07972 2024