The paper was https://openreview.net/forum?id=0ZnXGzLcOg and the problem flagged was "Two authors are omitted and one (Kyle Richardson) is added. This paper was published at ICLR 2024." I.e., for one cited paper, the author list was off and the venue was wrong. And this citation was mentioned in the background section of the paper, and not fundamental to the validity of the paper. So the citation was not fabricated, but it was incorrectly attributed (perhaps via use of an AI autocomplete).
I think there are some egregious papers in their dataset, and this error does make me pause to wonder how much of the rest of the paper used AI assistance. That said, the "single error" papers in the dataset seem similar to the one I checked: relatively harmless and minor errors (which would be immediately caught by a DOI checker), and so I have to assume some of these were included in the dataset mainly to amplify the author's product pitch. It succeeded.
There is already a problem with papers falsifying data/samples/etc, LLMs being able to put out plausible papers is just going to make it worse.
On the bright side, maybe this will get the scientific community and science journalists to finally take reproducibility more seriously. I'd love to see future reporting that instead of saying "Research finds amazing chemical x which does y" you see "Researcher reproduces amazing results for chemical x which does y. First discovered by z".
Until we can change how we fund science on the fundamental level; how we assign grants — it will be indeed very hard problem to deal with.
But the problem isn’t just funding, it’s time. Successfully running a replication doesn’t get you a publication to help your career.
The question is, how can universities coordinate to add this requirement and gain status from it
In a lot of cases, the salary for a grad student or tech is small potatoes next to the cost of the consumables they use in their work.
For example,I work for a lab that does a lot of sequencing, and if we’re busy one tech can use 10k worth of reagents in a week.
But two, and more importantly, no one is checking.
Tree falls in the forest, no one hears, yadi-yada.
I think this is the big part of it. There is no incentive to do it even when the study can be reproduced.
The final bit is a thing I think most people miss when they think about replication. A lot of papers don't get replicated directly but their measurements do when other researchers try to use that data to perform their own experiments, at least in the more physical sciences this gets tougher the more human centric the research is. You can't fake or be wrong for long when you're writing papers about the properties of compounds and molecules. Someone is going to come try to base some new idea off your data and find out you're wrong when their experiment doesn't work. (or spend months trying to figure out what's wrong and finally double check the original data).
Most people (that I talk to, at least) in science agree that there's a reproducibility crisis. The challenge is there really isn't a good way to incentivize that work.
Fundamentally (unless you're independent wealthy and funding your own work), you have to measure productivity somehow, whether you're at a university, government lab, or the private sector. That turns out to be very hard to do.
If you measure raw number of papers (more common in developing countries and low-tier universities), you incentivize a flood of junk. Some of it is good, but there is such a tidal wave of shit that most people write off your work as a heuristic based on the other people in your cohort.
So, instead it's more common to try to incorporate how "good" a paper is, to reward people with a high quantity of "good" papers. That's quantifying something subjective though, so you might try to use something like citation count as a proxy: if a work is impactful, usually it gets cited a lot. Eventually you may arrive at something like the H-index, which is defined as "The highest number H you can pick, where H is the number of papers you have written with H citations." Now, the trouble with this method is people won't want to "waste" their time on incremental work.
And that's the struggle here; even if we funded and rewarded people for reproducing results, they will always be bumping up the citation count of the original discoverer. But it's worse than that, because literally nobody is going to cite your work. In 10 years, they just see the original paper, a few citing works reproducing it, and to save time they'll just cite the original paper only.
There's clearly a problem with how we incentivize scientific work. And clearly we want to be in a world where people test reproducibility. However, it's very very hard to get there when one's prestige and livelihood is directly tied to discovery rather than reproducibility.
This would especially help newer grad students learn how to begin to do this sort of research.
Maybe doing enough reproductions could unlock incentives. Like if you do 5 reproductions than the AC would assign your next paper double the reviewers. Or, more invasively, maybe you can't submit to the conference until you complete some reproduction.
1. https://en.wikipedia.org/wiki/Quis_custodiet_ipsos_custodes%...
If you are thinking about this from an academic angle then sure its sounds weird to say "Two Staff jobs in a row from the University of LinkedIn" as a degree. But I submit this as basically the certificate you desire.
It's the Google search algorithm all over again. And it's the certificate trust hierarchy all over again. We keep working on the same problems.
Like the two cases I mentioned, this is a matter of making adjustments until you have the desired result. Never perfect, always improving (well, we hope). This means we need liquidity with the rules and heuristics. How do we best get that?
First X people that reproduce Y get Z percent of patent revenue.
Or something similar.
What if we got Undergrads (with hope of graduate studies) to do it? Could be a great way to train them on the skills required for research without the pressure of it also being novel?
If you're a tenure-track academic, your livelihood is much safer from having them try new ideas (that you will be the corresponding author on, increasing your prestige and ability to procure funding) instead of incrementing.
And if you already have tenure, maybe you have the undergrad do just that. But the tenure process heavily filters for ambitious researchers, so it's unlikely this would be a priority.
If instead you did it as coursework, you could get them to maybe reproduce the work, but if you only have the students for a semester, that's not enough time to write up the paper and make it through peer review (which can take months between iterations)
But nobody want to pay for it
sometimes you can just do something new and assume the previous result, but thats more the exception. youre almost always going to at least in part reproducr the previous one. and if issues come up, its often evident.
thats why citations work as a good proxy. X number of people have done work based around this finding and nobody has seen a clear problem
theres a problem of people fabricating and fudging data and not making their raw data available ("on request" or with not enough meta data to be useful) which wastes everyones time and almost never leads to negative consequences for the authors
The difficult part is surfacing that information to readers of the original paper. The semantic scholar people are beginning to do some work in this area.
give it a published paper and it runs through papers that have cited it and give you an evaluation
No, you do not have to. You give people with the skills and interest in doing research the money. You need to ensure its spent correctly, that is all. People will be motivated by wanting to build a reputation and the intrinsic reward of the work
This is exactly what rewarding replication papers (that reproduce and confirm an existing paper) will lead to.
Catch-22 is a fun game to get caught in.
Ban publication of any research that hasn't been reproduced.
Unless it is published, nobody will know about it and thus nobody will try to reproduce it.
https://blog.plan99.net/replication-studies-cant-fix-science...
Funding replication studies in the current environment would just lead to lots of invalid papers being promoted as "fully replicated" and people would be fooled even harder than they already are. There's got to be a fix for the underlying quality issues before replication becomes the next best thing to do.
i don't know how any of that writing generalizes to other parts of academic research. i mean, i know that you say it does, but i don't think it does. what exactly do you think most academic research institutions and the federal government spend money on? for example, wet lab research. you don't know anything about wet lab research. i think if you took a look at a typical e.g. basic science in immunology paper, built on top of mouse models, you would literally lose track of any of its meaning after the first paragraph, you would feed it into chatgpt, and you would struggle to understand the topic well enough to read another immunology paper, you would have an immense challenge talking about it with a researcher in the field. it would take weeks of reading. you have no medicine background, so you wouldn't understand the long horizon context of any of it. you wouldn't be able to "chatbot" your way into it, it would be a real education. so after all of that, would you still be able to write the conclusion you wrote in the medium post? i don't think so, because you would see that by many measures, you cannot generalize a froo-froo policy between "subjective political dispute about COVID-19" writing and wet lab research. you'd gain the wisdom to see that they're different things, and you lack the background, and you'd be much more narrow in what you'd say.
it doesn't even have to be in the particulars, it's just about wisdom. that is my feedback. you are at once saying that there is greater wisdom to be had in the organization and conduct of research, and then, you go and make the highly low wisdom move to generalize about all academic research. which you are obviously doing not because it makes sense to, you're a smart guy. but because you have some unknown beef with "academics" that stems from anger about valid, common but nonetheless subjective political disputes about COVID-19.
Paper A, by bob, bill, brad. Validated by Paper B by carol, clare, charlotte.
or
Paper A, by bob, bill, brad. Unvalidated.
Google Scholar's PDF reader extension turns every hyperlinked citation into a popout card that shows citation counts inline in the PDF: https://chromewebstore.google.com/detail/google-scholar-pdf-...
I am still reviewing papers that propose solutions based on a technique X, conveniently ignoring research from two years ago that shows that X cannot be used on its own. Both the paper I reviewed and the research showing X cannot be used are in the same venue!
There is also the reality that "one paper" or "one study" can be found contradicted almost anything, so if you just went with "some other paper/study debunks my premise" then you'd end up producing nothing. Plus many inside know that there's a lot of slop out there that gets published, so they can (sometimes reasonably IMHO) dismiss that "one paper" even when they do know about it.
It's (mostly) not fraud or malicious intent or ignorance, it's (mostly) humans existing in the system in which they must live.
However, given the feedback by other reviewers, I was the only one who knew that X doesn’t work. I am not sure how these people mark themselves as “experts” in the field if they are not following the literature themselves.
It's like buying a piece of furniture from IKEA, except you just get an Allen key, a hint at what parts to buy, and blurry instructions.
If correct form (LaTeX two-column formatting, quoting the right papers and authors of the year etc.) has been allowing otherwise reject-worthy papers to slip through peer review, academia arguably has bigger problems than LLMs.
Perhaps repro should become the basis of peer review?
> to finally take reproducibility more seriously
This is incredibly helpful to the community as a whole. Reproduction failures can be incredibly helpful even when the original work has no fraud. In those cases a reprising failure reveals important information about the necessary conditions that the original work relies on.
But honestly, we'll never get this until we drop the entire notion of "novel" or "impact" and "publish or perish". Novel is in the eye of the reviewer and the lower the reviewer's expertise the less novel a work seems (nothing is novel as a high enough level). Impact can almost never be determined a priori, and when it can you already have people chasing those directions because why the fuck would they not? But publish or perish is the biggest sin. It's one of those ideas that looks nice on paper, like you are meaningfully determining who is working hard and who is hardly working. But the truth is that you can't tell without being in the weeds. The real result is that this stifles creativity, novelty, and impact as it forces researchers to chase lower hanging fruit. Things you're certain will work and can get published. It creates a negative feedback loop as we compete: "X publishes 5 papers a year, why can't you?" I've heard these words even when X has far fewer citations (each of my work had "more impact").
Frankly, I believe fraud would dramatically reduce were researchers not risking job security. The fraud is incentivized by the cutthroat system where you're constantly trying to defend your job, your work, and your grants. They'll always be some fraud but (with a few exceptions) researchers aren't rockstar millionaires. It takes a lot of work to get to point where fraud even works, so there's a natural filter.
I have the same advice as Mervin Kelly, former director of Bell Labs:
How do you manage genius?
You don'tThis is just article publishers not doing the most basic verification failing to notice that the citations in the article don't exist.
What this should trigger is a black mark for all of the authors and their institutions, both of which should receive significant reputational repercussions for publishing fake information. If they fake the easiest to verify information (does the cited work exist) what else are they faking?
By using an LLM to fabricate citations, authors are moving away from this noble pursuit of knowledge built on the "shoulders of giants" and show that behind the curtain output volume is what really matters in modern US research communities.
> When reached for comment, the NeurIPS board shared the following statement: “The usage of LLMs in papers at AI conferences is rapidly evolving, and NeurIPS is actively monitoring developments. In previous years, we piloted policies regarding the use of LLMs, and in 2025, reviewers were instructed to flag hallucinations. Regarding the findings of this specific work, we emphasize that significantly more effort is required to determine the implications. Even if 1.1% of the papers have one or more incorrect references due to the use of LLMs, the content of the papers themselves are not necessarily invalidated. For example, authors may have given an LLM a partial description of a citation and asked the LLM to produce bibtex (a formatted reference). As always, NeurIPS is committed to evolving the review and authorship process to best ensure scientific rigor and to identify ways that LLMs can be used to enhance author and reviewer capabilities.”
Maybe I'm overreacting, but this feels like an insanely biased response. They found the one potentially innocuous reason and latched onto that as a way to hand-wave the entire problem away.
Science already had a reproducibility problem, and it now has a hallucination problem. Considering the massive influence the private sector has on the both the work and the institutions themselves, the future of open science is looking bleak.
It's like arguing against strict liability for drunk driving because maybe somebody accidentally let their grape juice sit to long and they didn't know it was fermented... I can conceive of such a thing, but that doesn't mean we should go easy on drunk driving.
Seems like CYA, seems like hand wave. Seems like excuses.
How did these 100 sources even get through the validation process?
> Isn't disqualifying X months of potentially great research due to a misformed, but existing reference harsh?
It will serve as a reminder not to cut any corners.
I wouldn't call a misformed reference a critical issue, it happens. That's why we have peer reviews. I would contend drawing superficially valid conclusions from studies through use of AI is a much more burning problem that speaks more to the integrity of the author.
> It will serve as a reminder not to cut any corners.
Or yet another reason to ditch academic work for industry. I doubt the rise of scientific AI tools like AlphaXiv [1], whether you consider them beneficial or detrimental, can be avoided - calling for a level pragmatism.
Who would pay them? Conference organizers are already unpaid and undestaffed, and most conferences aren't profitable.
I think rejections shouldn't be automatic. Sometimes there are just typos. Sometimes authors don't understand BibTeX. This needs to be done in a way that reduces the workload for reviewers.
One way of doing this would be for GPTZero to annotate each paper during the review step. If reviewers could review a version of each paper with yellow-highlighted "likely-hallucinated" references in the bibliography, then they'd bring it up in their review and they'd know to be on their guard for other probably LLM-isms. If there's only a couple likely typos in the references, then reviewers could understand that, and if they care about it, they'd bring it up in their reviews and the author would have the usual opportunity to rebut.
I don't know if GPTZero is willing to provide this service "for free" to the academic community, but if they are, it's probably worth bringing up at the next PAMI-TC meeting for CVPR.
This statement isn’t wrong, as the rest of the paper could still be correct.
However, when I see a blatant falsification somewhere in a paper I’m immediately suspicious of everything else. Authors who take lazy shortcuts when convenient usually don’t just do it once, they do it wherever they think they can get away with it. It’s a slippery slope from letting an LLM handle citations to letting the LLM write things for you to letting the LLM interpret the data. The latter opens the door to hallucinated results and statistics, as anyone who has experimented with LLMs for data analysis will discover eventually.
Labor is the bottleneck. There aren't enough academics who volunteer to help organize conferences.
(If a reader of this comment is qualified to review papers and wants to step up to the plate and help do some work in this area, please email the program chairs of your favorite conference and let them know. They'll eagerly put you to work.)
One "simple" way of doing this would be to automate it. Have authors step through a lint step when their camera-ready paper is uploaded. Authors would be asked to confirm each reference and link it to a google scholar citation. Maybe the easy references could be auto-populated. Non-public references could be resolved by uploading a signed statement or something.
There's no current way of using this metadata, but it could be nice for future systems.
Even the Scholar team within Google is woefully understaffed.
My gut tells me that it's probably more efficient to just drag authors who do this into some public execution or twitter mob after-the-fact. CVPR does this every so often for authors who submit the same paper to multiple venues. You don't need a lot of samples for deterrence to take effect. That's kind of what this article is doing, in a sense.
For example, authors may have given an LLM a partial description of a citation and asked the LLM to produce bibtex
Here's a random one I picked as an example.
Paper: https://openreview.net/pdf?id=IiEtQPGVyV
Reference: Asma Issa, George Mohler, and John Johnson. Paraphrase identification using deep contextual- ized representations. In Proceedings of the 2018 Conference on Empirical Methods in Natural Language Processing (EMNLP), pp. 517–526, 2018.
Asma Issa and John Johnson don't appear to exist. George Mohler does, but it doesn't look like he works in this area (https://www.georgemohler.com/). No paper with that title exists. There are some with sort of similar titles (https://arxiv.org/html/2212.06933v2 for example), but none that really make sense as a citation in this context. EMNLP 2018 exists (https://aclanthology.org/D18-1.pdf), but that page range is not a single paper. There are papers in there that contain the phrases "paraphrase identification" and "deep contextualized representations", so you can see how an LLM might have come up with this title.
Institutions can choose an arbitrary approach to mistakes; maybe they don't mind a lot of them because they want to take risks and be on the bleeding edge. But any flexible attitude towards fabrications is simply corruption. The connected in-crowd will get mercy and the outgroup will get the hammer. Anybody criticizing the differential treatment will be accused of supporting the outgroup fraudsters.
Think of it this way: if I wanted to commit pure academic fraud maliciously, I wouldn't make up a fake reference. Instead, I'd find an existing related paper and merely misrepresent it to support my own claims. That way, the deception is much harder to discover and I'd have plausible deniability -- "oh I just misunderstood what they were saying."
I think most academic fraud happens in the figures, not the citations. Researchers are more likely to to be successful at making up data points than making up references because it's impossible to know without the data files.
In fairness, NeurIPS is just saying out loud what everyone already knows. Most citations in published science are useless junk: it’s either mutual back-scratching to juice h-index, or it’s the embedded and pointless practice of overcitation, like “Human beings need clean water to survive (Franz, 2002)”.
Really, hallucinated citations are just forcing a reckoning which has been overdue for a while now.
Can't say that matches my experience at all. Once I've found a useful paper on a topic thereafter I primarily navigate the literature by traveling up and down the citation graph. It's extremely effective in practice and it's continued to get easier to do as the digitization of metadata has improved over the years.
A somewhat-related parable: I once worked in a larger lab with several subteams submitting to the same conference. Sometimes the work we did was related, so we both cited each other's paper which was also under review at the same venue. (These were flavor citations in the "related work" section for completeness, not material to our arguments.) In the review copy, the reference lists the other paper as written by "anonymous (also under review at XXXX2025)," also emphasized by a footnote to explain the situation to reviewers. When it came time to submit the camera-ready copy, we either removed the anonymization or replaced it with an arxiv link if the other team's paper got rejected. :-) I doubt this practice improved either paper's chances of getting accepted.
Are these the sorts of citation rings you're talking about? If authors misrepresented the work as if it were accepted, or pretended it was published last year or something, I'd agree with you, but it's not too uncommon in my area for well-connected authors to cite manuscripts in process. I don't think it's a problem as long as they don't lean on them.
Most big tech PhD intern job postings have NeurIPS/ICML/ICLR/etc. first author paper as a de facto requirement to be considered. It's like getting your SAG card.
If you get one of these internships, it effectively doubles or triples your salary that year right away. You will make more in that summer than your PhD stipend. Plus you can now apply in future summers and the jobs will be easier to get. And it sets your career on a good path.
A conservative estimate of the discounted cash value of a student's first NeurIPS paper would certainly be five figures. It's potentially much higher depending on how you think about it, considering potential path dependent impacts on future career opportunities.
We should not be surprised to see cheating. Nonetheless, it's really bad for science that these attempts get through. I also expect some people did make legitimate mistakes letting AI touch their .bib.
(If you're qualified to review papers, please email the program chair of your favorite conference and let them know -- they really need the help!)
As for my review, the review form has a textbox for a summary, a textbox for strengths, a textbox for weaknesses, and a textbox for overall thoughts. The review I received included one complete set of summary/strengths/weaknesses/closing thoughts in the summary text box, another distinct set of summary/strengths/weaknesses/closing thoughts in the strengths, another complete and distinct review in the weaknesses, and a fourth complete review in the closing thoughts. Each of these four reviews were slightly different and contradicted each other.
The reviewer put my paper down as a weak reject, but also said "the pros greatly outweigh the cons."
They listed "innovative use of synthetic data" as a strength, and "reliance on synthetic data" as a weakness.
If we grant that good carrots are hard to grow, what's the argument against leaning into the stick? Change university policies and processes so that getting caught fabricating data or submitting a paper with LLM hallucinations is a career ending event. Tip the expected value of unethical behaviours in favour of avoiding them. Maybe we can't change the odds of getting caught but we certainly can change the impact.
This would not be easy, but maybe it's more tractable than changing positive incentives.
It’s for sure plausible that it’s increasing, but I’m certain this kind of thing happened with humans too.
GPTZero of course knows this. "100 hallucinations across 53 papers at prestigious conference" hits different than "0.07% of citations had issues, compared to unknown baseline, in papers whose actual findings remain valid."
In the past, a single paper with questionable or falsified results at a top tier conference was big news.
Something that casts doubt on the validity of 53 papers at a top AI conference is at least notable.
> whose actual findings remain valid
Remain valid according to who? The same group that missed hundreds of hallucinated citations?
What is the base rate of bad citations pre-AI?
And finally yes. Peer review does not mean clicking every link in the footnotes to make sure the original paper didn't mislink, though I'm sure after this bruhaha this too will be automated.
When training a student, normally we expect a lack of knowledge early, and reward self-awareness, self-evaluation and self-disclosure of that.
But the very first epoch of a model training run, when the model has all the ignorance of a dropped plate of spaghetti, we optimize the network to respond to information, as anything from a typical human to an expert, without any base of understanding.
So the training practice for models is inherently extreme enforced “fake it until you make it”, to a degree far beyond any human context or culture.
(Regardless, humans need to verify, not to mention read, the sources they site. But it will be nice when models can be trusted to accurately access what they know/don’t-know too.)
If I drop a loaded gun and it fires, killing someone, we don't go after the gun's manufacturer in most cases.
Then peoples CV's could say "My inventions have led to $1M in licensing revenue" rather than "I presented a useless idea at a decent conference because I managed to make it sound exciting enough to get accepted".
I guess GPTZero has such a tool. I'm confused why it isn't used more widely by paper authors and reviewers
In my experience you will see considerable variation in citation formats, even in journals that strictly define it and require using BibTex. And lots of journals leave their citation format rules very vague. Its a problem that runs deep.
Publishing is just the way to get grants.
A PI explained it to me once, something like this
Idea(s) -> Grant -> Experiments -> Data -> Paper(s) -> Publication(s) -> Idea(s) -> Grant(s)
Thats the current cycle ... remove any step and its a dead end
It’s a problem. The previous regime prior to publishing-mania was essentially a clubby game of reputation amongst peers based on cocktail party socialization.
The publication metrics came out of the harder sciences, I believe, and then spread to the softest of humanities. It was always easy to game a bit if you wanted to try, but now it’s trivial to defeat.
a) p-hacking and suppressing null results
b) hallucinations
c) falsifying data
Would be cool to see an analysis of this
To me, it's no different than stealing a car or tricking an old lady into handing over her fidelity account. You are stealing, and society says stealing is a criminal act.
If they actually committed theft, well then that already is illegal too.
But right now, doing "shitty research" isn't illegal and it's unlikely it ever will be.
If you do a search for "contractor imprisoned for fraud" you'll find plenty of cases where a private contract dispute resulted in criminal convictions for people who took money and then didn't do the work.
I don't know if taking money and then merely pretending to do the research would rise to the level of criminal fraud, but it doesn't seem completely outlandish.
EDIT - The threshold amount varies. Sometimes it's as low as a few hundred dollars. However, the point stands on its own, because there's no universe where the sum in question is in misdemeanor territory.
Most institutions aren't very chill with grant money being misused, so we already don't need to burden then state with getting Johnny muncipal prosecutor to try and figure out if gamma crystallization imaging sources were incorrect.
If you're taking public funds (directly or otherwise) with the intent to either:
A) Do little to no real work, and pass of the work of an AI as being your own work, or
B) Knowingly publish falsified data
Then you are, without a single shred of doubt, in criminal fraud territory. Further, the structural damage you inflict when you do the above is orders of magnitude greater than the initial fraud itself. That is a matter for civil courts ("Our company based on development on X fraudulent data, it cost us Y in damages").
Whether or not charges are pressed is going to happen way after all the internal reviews have demonstrated the person being charged has gone beyond the "honest mistake" threshold. It's like Walmart not bothering to call the cops until you're into felony territory, there's no point in doing so.
Also: there were 15 000 submissions that were rejected at NeurIPS; it would be very interesting to see what % of those rejected were partially or fully AI generated/hallucinated. Are the ratios comperable?
Sharing code enables others to validate the method on a different dataset.
Even before LLMs came around there were lots of methods that looked good on paper but turned out not to work outside of accepted benchmarks
I'm sure plenty of more nuanced facts are also entirely without basis.
Should be extremely easy for AI to successfully detect hallucinated references as they are semi-structured data with an easily verifiable ground truth.
The best possible outcome is that these two purposes are disconflated, with follow-on consequences for the conferences and journals.
But here's the thing: let's say you're an university or a research institution that wants to curtail it. You catch someone producing LLM slop, and you confirm it by analyzing their work and conducting internal interviews. You fire them. The fired researcher goes public saying that they were doing nothing of the sort and that this is a witch hunt. Their blog post makes it to the front page of HN, garnering tons of sympathy and prompting many angry calls to their ex-employer. It gets picked up by some mainstream outlets, too. It happened a bunch of times.
In contrast, there are basically no consequences to institutions that let it slide. No one is angrily calling the employers of the authors of these 100 NeurIPS papers, right? If anything, there's the plausible deniability of "oh, I only asked ChatGPT to reformat the citations, the rest of the paper is 100% legit, my bad".
In conference publications, it's less common.
Conference publications (like NEURips) is treated as announcement of results, not verified.
These clearly aren't being peer-reviewed, so there's no natural check on LLM usage (which is different than what we see in work published in journals).
We verify: is the stuff correct, and is it worthy of publication (in the given venue) given that it is correct.
There is still some trust in the authors to not submit made-up-stuff, albeit it is diminishing.
Fake references are more common in the introduction where you list relevant material to strengthen your results. They often don't change the validity of the claim, but the potential impact or value.
Consider the unit economics. Suppose NeurIPS gets 20,000 papers in one year. Suppose each author should expect three good reviews, so area chairs assign five reviewers per paper. In total, 100,000 reviews need to be written. It's a lot of work, even before factoring emergency reviewers in.
NeurIPS is one venue alongside CVPR, [IE]CCV, COLM, ICML, EMNLP, and so on. Not all of these conferences are as large as NeurIPS, but the field is smaller than you'd expect. I'd guess there are 300k-1m people in the world who are qualified to review AI papers.
Another problem is that conferences move slowly and it's hard to adjust the publication workflow in such an invasive way. CVPR only recently moved from Microsoft's CMT to OpenReview to accept author submissions, for example.
There's a lot of opportunity for innovation in this space, but it's hard when everyone involved would need to agree to switch to a different workflow.
(Not shooting you down. It's just complicated because the people who would benefit are far away from the people who would need to do the work to support it...)
But I saw it in Apple News, so MISSION ACCOMPLISHED!
Just ask authors to submit their bib file so we don't need to do OCR on the PDF. Flag the unknown citations and ask reviewers to verify their existence. Then contact authors and ban if they can't produce the cited work.
This is low hanging fruit here!
Detecting slop where the authors vet citations is much harder. The big problem with all the review rules is they have no teeth. If it were up to me we'd review in the open, or at least like ICLR. Publish the list of known bad actors and let is look at the network. The current system is too protective of egregious errors like plagiarism. Authors can get detected in one conference, pull, and submit to another, rolling the dice. We can't allow that to happen and we should discourage people from associating with these conartists.
AI is certainly a problem in the world of science review, but it's far from the only one and I'm not even convinced it's the biggest. The biggest is just that reviewers are lazy and/or not qualified to review the works they're assigned. It takes at least an hour to properly review a paper in your niche, much more when it's outside. We're over worked as is, with 5+ works to review, not to mention all the time we got to spend reworking our own works that were rejected due to the slot machine. We could do much better if we dropped this notion of conference/journal prestige and focused on the quality of the works and reviews.
Addressing those issues also addresses the AI issues because, frankly, *it doesn't matter if the whole work was done by AI, what matters is if the work is real.*
As we get more and more papers that may be citing information that was originally hallucinated in the first place we have a major reliability issue here. What is worse is people that did not use AI in the first place will be caught in the crosshairs since they will be referencing incorrect information.
There needs to be a serious amount of education done on what these tools can and cannot do and importantly where they fail. Too many people see these tools as magic since that is what the big companies are pushing them as.
Other than that we need to put in actual repercussions for publishing work created by an LLM without validating it (or just say you can’t in the first place but I guess that ship has sailed) or it will just keep happening. We can’t just ignore it and hope it won’t be a problem.
And yes, humans can make mistakes too. The difference is accountability and the ability to actually be unsure about something so you question yourself to validate.
I even know PIs who got fame and funding based on some research direction that supposedly is going to be revolutionary. Except all they had were preliminary results that from one angle, if you squint, you can envision some good result. But then the result never comes. That's why I say, "fake it, and never make it".
One thing that has bothered me for a very long time is that computer science (and I assume other scientific fields) has long since decided that English is the lingua franca, and if you don't speak it you can't be part of it. Can you imagine if being told that you could only do your research if you were able to write technical papers in a language you didn't speak, maybe even using glyphs you didn't know? It's crazy when you think about it even a little bit, but we ask it of so many. Let's not include the fact that 90% of the English-speaking population couldn't crank out a paper to the required vocabulary level anyway.
A very legitimate, not trying to cheat, use for LLMs is translation. While it would be an extremely broad and dangerous brush to paint with, I wonder if there is a correlation between English-as-a-Second (or even third)-Language authors and the hallucinations. That would indicate that they were trying to use LLMs to help craft the paper to the expected writing level. The only problem being that it sometimes mangles citations, and if you've done good work and got 25+ citations, it's easy for those errors to slip through.
The problem is consequences (lack of).
Doing this should get you barred from research. It won’t.
There need to be dis-incentives for sloppy work. There is a tension between quality and quantity in almost every product. Unfortunately academia has become a numbers-game with paper-mills.
This feels a bit like the "LED stoplights shouldn't be used because they don't melt snow" argument.
Thank you for that perfect example of a strawman argument! No, spellcheckers that use AI is not the main concern behind disclosing the use of AI in generating scientific papers, government reports, or any large block of nonfiction text that you paid for that is supposed to make to sense.
Maybe? There's certainly a push to force the perception of inevitability.
What people are pissed about is the fact their tax dollars fund fake research. It's just fraud, pure and simple. And fraud should be punished brutally, especially in these cases, because the long tail of negative effects produces enormous damage.
For people who think this is too harsh, just remember we aren't talking about undergrads who cheat on a course paper here. We're talking about people who were given money (often from taxpayers) that committed fraud. This is textbook white collar crime, not some kid being lazy. At a minimum we should be taking all that money back from them and barring them from ever receiving grant money again. In some cases I think fines exceeding the money they received would be appropriate.
Although then why not just cite existing papers for bogus reasons?
Many such cases of this. More than 100!
They claim to have custom detection for GPT-5, Gemini, and Claude. They're making that up!