When AI Sees Guns Everywhere: Doritos, Clarinets and Children in Handcuffs
On the afternoon of 20 October 2025, a teenager stood outside Kenwood High School in Baltimore County, Maryland, waiting for a lift home after football practice. He was holding a crumpled bag of Doritos. He had two hands and one finger out, he would later explain, the casual choreography of a kid eating crisps with friends. Somewhere in the building, an artificial intelligence system trained on live camera feeds looked at that shiny, folded packet and decided it was a firearm.
What happened next has become one of the defining parables of the algorithmic age. According to the account the student, Taki Allen, gave to reporters, officers made him get on his knees, put his hands behind his back and handcuffed him. Multiple police vehicles arrived rapidly. He thought, in his own words, that he might be about to die. The weapon, of course, did not exist. It had never existed. It was a snack.
Two months later, and roughly 800 miles south, the pattern repeated itself with an instrument rather than a gun. On 9 December 2025, an AI weapons detection system at Lawton Chiles Middle School in Seminole County, Florida, flagged a pupil carrying a clarinet. The child, dressed in camouflage and a tactical vest for a themed dress-up day, had been holding the instrument in the position of a shouldered rifle. The school went into a Code Red lockdown. The Washington Post and the technology outlet TechSpot both reported the episode, and it slotted neatly into a growing archive of incidents in which the machines tasked with keeping children safe have instead manufactured emergencies out of crisp packets, musical instruments and the ordinary objects of adolescent life.
These are not isolated glitches. They are the visible symptoms of a much larger and much stranger phenomenon: the rapid, largely unregulated installation of AI surveillance technology in schools across the United States, sold on a promise of safety that the available evidence does not appear to support. The question that hangs over the whole enterprise is not really whether the algorithms make mistakes. Every system makes mistakes. The question is what standard of proof, what transparency and what community consent ought to govern a technology whose primary documented effect, so far, is to point armed police at children, and disproportionately at Black children.
The market that fear built
To understand how clarinets and crisp packets ended up triggering armed responses, you have to follow the money, because the AI gun detection sector is a business before it is anything else, and it is a business in a hurry.
The market is expanding at a pace that would make most technology founders weep with envy. Industry analyses place the value of the AI gun detection sector somewhere above a billion dollars in 2024, with forecasts of several billion within a decade and compound annual growth rates in the double digits. A constellation of vendors competes for school contracts, among them ZeroEyes, Omnilert, Evolv Technology, Scylla, Actuate and others. ZeroEyes, the Pennsylvania company whose system flagged the Florida clarinet, raised more than 53 million dollars in a Series B funding round, with backing that included Intel Capital. Omnilert, whose technology was involved in the Baltimore Doritos incident, has said its system is deployed across hundreds of schools.
The product these companies sell is, at bottom, reassurance. They market themselves to a country traumatised by school shootings, a country where active shooter drills have become as routine as fire drills and where parents drop their children at the school gates carrying a low, persistent dread. Into that anxiety steps a salesperson with a slide deck and a promise: install our cameras, our scanners, our algorithms, and we will see the gun before the shooter does.
It is worth pausing on the texture of that pitch, because it is engineered with real psychological precision. The vendor is not, in the room, selling a probabilistic computer-vision model with documented limitations. The vendor is selling the feeling of having done something, the relief of an administrator who can tell anxious parents that the district has acted. School boards operate under enormous pressure to be seen responding to the threat of violence, and a visible piece of technology is a far easier thing to point to than the slow, diffuse work of mental-health support or community building. The procurement logic rewards the purchase of a tangible object over the funding of an intangible process, even when the evidence runs the other way. The salesperson understands this, and the slide deck is built around it.
It is a powerful pitch precisely because it speaks to a real and terrible problem. The horror of gun violence in American schools is not invented. The grief is not manufactured. But the solution being sold rests on an evidentiary foundation that, when examined closely, turns out to be alarmingly thin.
The evidence that is not there
In February 2026, the science publication Undark published an investigation into the AI weapons detection boom, and its central finding was deceptively simple. As more schools turn to these systems, the magazine reported, serious questions about their effectiveness and accuracy persist. Officials and researchers quoted in the piece pointed to the steady drip of false positives, the clarinets and the crisp packets, as evidence that the technology was being deployed faster than it was being validated.
The deeper problem is one of causation. There is little to no robust empirical evidence demonstrating that AI weapon detection systems have actually prevented a shooting in a real-world school setting. The technologies are, in the language of the researchers who study them, largely untested against the very outcome they are sold to prevent. A separate analysis published through The Conversation in late 2025 reached a similar conclusion, finding little evidence that high-technology systems meaningfully reduce the risk of school shootings. The systems generate alerts. They generate lockdowns. What they have not been shown to generate, in any rigorous way, is safety.
This evidentiary vacuum matters more than it might first appear, because the standard ordinarily applied to interventions aimed at children is exacting. A new medicine cannot be sold to schoolchildren on the strength of a manufacturer's say-so; it must survive controlled trials, independent review and the scrutiny of regulators who assume nothing. A new curriculum is expected to show measurable outcomes. Yet a surveillance technology capable of triggering an armed police response to a child has been waved through procurement processes on little more than a vendor's promise and a parent's fear. The mismatch between the gravity of the potential harm and the flimsiness of the proof required is the single most striking feature of the entire field.
The case that most starkly exposes the gap between marketing and reality unfolded outside Nashville. On 22 January 2025, a student opened fire in the cafeteria at Antioch High School, killing a classmate before taking his own life. The school had an Omnilert AI gun detection system installed and operating. It did not catch the gun. School officials explained afterwards that the shooter had been too far from the cameras for the system to get an accurate read, and that the technology depends on the weapon being visible to a camera, which a concealed firearm, by definition, often is not. A student injured in the shooting later sued Omnilert, alleging the company had marketed the system as capable of detecting firearms before a shot is fired while failing to adequately disclose limitations relating to camera placement, distance, angle, lighting and weapon visibility. Omnilert has said its system is intended to be one layer of a broader safety plan rather than a guarantee.
Here is the asymmetry at the heart of the technology. In Antioch, where there was a real gun and a real shooter, the system stayed silent. In Baltimore and Seminole County, where there was a crisp packet and a clarinet, it screamed. A technology that misses the actual threat while conjuring phantom ones is not a safety system in any meaningful sense. It is a generator of liability, anxiety and, as we shall see, danger.
It is worth being precise about why this asymmetry is not a temporary bug to be patched out with the next software update. Camera-based gun detection works by scanning a video feed for visual shapes that resemble a firearm, which means it is fundamentally blind to anything it cannot see. A pistol tucked into a waistband, a rifle inside a bag, a weapon drawn at an angle the camera cannot capture, a shooter standing too far from the nearest lens: all of these defeat the system, not because the algorithm is poorly trained, but because the physics of the problem do not cooperate. The same limitation explains the false positives. To be sensitive enough to catch a gun in the fraction of a second it is visible, the system has to be aggressive about flagging gun-shaped objects, and the world is full of gun-shaped objects that are not guns. The clarinet held like a rifle. The folded foil packet catching the light. A phone, an umbrella, a power tool. Turn the sensitivity down to reduce the false alarms and you increase the chance of missing the real thing. Turn it up to catch the real thing and you drown the school in false alarms. There is no setting that makes both problems disappear, which is precisely why the marketing language of near-certain detection deserves the scrutiny a regulator has already given it.
What the regulator already found
If all of this sounds like the speculation of critics, it is worth remembering that a federal regulator has already weighed in, and not gently.
In November 2024, the Federal Trade Commission took action against Evolv Technologies, one of the most prominent players in the AI weapons screening business, over allegations that the company had deceptively advertised what its systems could do. The FTC alleged that Evolv had made false or unsupported claims that its scanners could detect all weapons while ignoring harmless personal items, and that its use of artificial intelligence made its screening more accurate and reliable than traditional metal detectors. Samuel Levine, then director of the FTC's Bureau of Consumer Protection, framed the stakes plainly, stating that claims about technology, including artificial intelligence, need to be backed up, and that this is especially important when those claims involve the safety of children.
The proposed settlement order was striking in its specifics. It would prohibit Evolv from making a long list of misrepresentations about its products: their ability to detect weapons and ignore harmless items, their accuracy and false alarm rates compared with metal detectors, the speed of screening, the labour costs involved, and any material aspect of performance involving algorithms or artificial intelligence. Most tellingly of all, the settlement required Evolv to give certain K-12 school customers the option to cancel their contracts, which typically locked districts into multi-year commitments, for deals signed in a defined window between April 2022 and June 2023.
That contract cancellation clause is the part worth sitting with. Regulators do not generally hand customers an exit from a contract unless they believe those customers were sold something other than what they thought they were buying. The Evolv case also carried a grim real-world coda. The company had been connected to a 2022 incident in Utica, New York, where a student carried a knife past Evolv scanners and later used it to stab a classmate. The district there had reportedly spent millions on the equipment. The technology that was meant to catch the weapon did not.
The significance of the Evolv action extends well beyond a single company. It established, at the level of federal enforcement, that the safety claims wrapped around AI security products are not exempt from the ordinary rules against deceptive advertising, and that the involvement of children raises rather than lowers the bar. Civil-liberties organisations welcomed it on exactly those grounds. The Electronic Frontier Foundation, which has long argued that so-called AI weapon detection is often little more than a rebranded and oversold metal detector, treated the settlement as a vindication of the principle that vendors should not be permitted to convert public anxiety into contracts on the strength of claims they cannot support. Yet an enforcement action against one firm, after the fact, is a blunt instrument. It punishes a particular set of overstatements; it does not establish a general standard that every vendor must meet before a system is ever switched on in a school. The structural problem, in other words, remains.
Who pays for the algorithm's mistakes
Every classification system has an error rate, and the design question is always the same: who bears the cost of the errors? In the case of AI weapon detection in schools, the answer is not evenly distributed. It falls heaviest on the children least able to absorb it, and most often on Black children.
The American Civil Liberties Union made this argument forcefully in the wake of the Baltimore incident. Jay Stanley, a senior policy analyst with the ACLU's Speech, Privacy and Technology Project, wrote that the biggest scandal was not that the AI was imprecise, because all such systems are imprecise, but that the situation had been allowed to happen at all. He laid responsibility across a chain of human actors: the school that installed the system, the vendor that pushed it on perhaps technologically naive officials, the security staff who called the police, and the police themselves.
Crucially, Stanley situated the harm within the specific reality of race in America. For a young Black man to be swarmed by police with guns drawn, he argued, was a life-threatening situation given the history and present reality of racist policing in the country. This is the point that converts an abstract conversation about false positive rates into a question of physical safety. A false positive is not a neutral inconvenience when its resolution mechanism is an armed officer responding to a reported firearm. The teenager in Baltimore reportedly wondered whether he was going to die. The algorithm did not understand that. The algorithm did not understand anything. It simply produced a probability and handed the consequences to a child.
There is a compounding problem buried in the technology itself. Computer-vision systems have a long and well-documented record of performing unevenly across demographic groups, with error rates that can climb for darker-skinned faces and bodies, an artefact of training data that has historically over-represented lighter skin. A weapon detection system layers a second classification on top of that, the judgement about whether an object is a gun, but the two are not cleanly separable when the object is being held by a person whose presence the system is also parsing. The result is a plausible mechanism by which the burden of false positives could fall more heavily on Black students, not as a matter of malice but as a matter of statistics, and then be amplified by a policing response that the historical record shows is itself far from racially neutral. The harm does not require anyone to intend it. The architecture produces it.
Civil rights organisations in Maryland framed the episode in similar terms. The Randallstown branch of the NAACP and the group Associated Black Charities both demanded accountability, with figures from those organisations describing the incident not merely as a technological malfunction but as a failure of leadership and humanity, and warning that the situation could have ended in tragedy. Their concern was not hypothetical. The grim arithmetic of American policing means that when a system tells officers a young Black person is armed, the margin for the system to be wrong is measured in lives.
There is a further wrinkle that makes the Baltimore case especially instructive. According to accounts of the incident, the school's security department reviewed the AI alert and cancelled it after concluding there was no weapon. The principal, however, apparently unaware that the alert had been cancelled, reported the matter to the school resource officer, who summoned police. In other words, the human safeguard that vendors point to as the answer to algorithmic error, the person in the loop who is supposed to catch the machine's mistakes, existed and even functioned, and yet the armed response still happened. The failure was not purely a failure of the algorithm. It was a failure of the entire socio-technical system around it, the protocols, the communication, the institutional reflex to escalate. Omnilert, for its part, expressed regret over the incident while maintaining that its process had functioned as intended, a phrase that should give anyone pause. If handcuffing a child over a crisp packet is the process functioning as intended, the problem is the process.
The consent nobody asked for
Run alongside the weapon detection story a second, quieter one, and the governance gap becomes impossible to ignore. It concerns not just what the algorithms see but whether anyone agreed to be watched at all.
In 2025, reporting by State Scoop documented a case in the Plainedge Union Free School District on Long Island, New York, where an AI-enabled surveillance system had been installed in classrooms with what civil liberties advocates characterised as a striking absence of public disclosure. The system, from a company called XSponse, reportedly included features such as auto-locking doors and constant audio monitoring through in-classroom microphones, with AI voice-activation triggered by certain keywords. The district said the technology cost in the region of 250,000 dollars.
The New York Civil Liberties Union raised the alarm. According to the reporting, a fellow with the NYCLU said the district's own Board of Education had been unaware, as late as June, that the technology had been installed in classrooms, and that most of the community only learned of the system's existence in August, when the company hosted a demonstration for parents. The district's superintendent was reported to have suggested the system had been voted on by parents and the public, though the relevant votes appear to have approved general funding for school security upgrades rather than the specific surveillance deployment. A senior NYCLU figure noted that beyond the transparency failure, there was something alarming about a private company potentially profiting from the surveillance of children.
This is where the consent question becomes acute, and where children occupy a uniquely vulnerable position. Adults can, in principle, opt out of surveilled spaces. They can decline to enter a building, refuse a service, vote with their feet. Children compelled by law to attend school have no such option. They are a captive population, monitored by systems they did not choose, often without their parents fully understanding what has been installed or what it records. Constant audio monitoring of a classroom is not a metal detector at a door. It is an ambient, always-listening presence in a space where children are meant to learn, make mistakes, speak freely and grow up. The decision to introduce it, made quietly and without meaningful community deliberation, represents a profound shift in the relationship between the institution and the child, undertaken without anyone asking the child, or in some accounts even the school board, for permission.
There is also a longer shadow to consider, the question of where the data goes and what it teaches. An always-listening classroom does not merely respond to an emergency keyword; it normalises the idea that being a child in a public school means being recorded, parsed and retained by a private company. The lessons a generation absorbs from that arrangement are not on any curriculum, but they are lessons nonetheless: that surveillance is the price of safety, that privacy is something other people decide you do not need, that the watching is for your own good. Whatever one thinks of the security case, the civic case deserves a hearing, and in Plainedge it appears never to have had one before the microphones were switched on.
The political economy of the unprovable
Step back, and a pattern emerges that is less about technology than about incentives. The AI school security market is a near-perfect machine for converting fear into revenue, and several features of the market make it resistant to the ordinary discipline of evidence.
The first is that the product is sold against a catastrophe that is, mercifully, rare at any individual school. A given district may go decades without a shooting. This means a system can appear to work simply by virtue of nothing terrible happening, even though nothing terrible was likely to happen anyway. Vendors can point to a school that bought their product and did not subsequently experience a tragedy, and the absence of disaster becomes a marketing asset, even though it proves nothing about causation. You cannot easily run the counterfactual. You cannot know what would have happened without the cameras.
The second feature is that the false positives, the clarinets and the crisp packets, are quietly reframed as successes. When the Florida system flagged the clarinet, the district maintained that the safety system had worked as intended. When the Baltimore system flagged the Doritos, the vendor said the process had functioned as designed. By this logic, there is no possible outcome that counts as failure. A real gun missed is explained away by camera angles. A snack misidentified is recast as appropriate vigilance. A technology that cannot fail is a technology that cannot be evaluated, and a technology that cannot be evaluated is being sold on faith.
The third feature is the contract structure itself, the multi-year lock-ins that the FTC found significant enough to force Evolv to unwind for certain customers. Once a district has signed, the sunk cost and the institutional embarrassment of admitting a mistake create powerful pressure to keep paying, to keep defending the system, to keep describing each false alarm as the system doing its job. A superintendent who has spent a quarter of a million dollars of public money on a surveillance system has every incentive to insist it is working, and very little incentive to commission the independent evaluation that might show it is not.
And then there is the legislative dimension, where the fear economy occasionally tips into something closer to capture. In 2024, reporting in Kansas described a bill that would dangle state funding in front of school districts in a way that critics argued was tailored to favour a specific gun detection vendor, raising the spectre of public money being steered toward a particular company rather than toward whatever might actually be demonstrated to work. When the law itself starts picking winners in a market without robust evidence of efficacy, the line between safety policy and industrial policy disappears, and the taxpayer ends up subsidising a product whose central claim has never been independently tested.
Put these features together and you have a sector insulated at almost every level from the question that ought to matter most: does this actually keep children safer than the alternatives, including the alternative of spending the same money on counsellors, on mental-health support, on building the kinds of relationships in which a troubled young person is noticed and helped before they ever reach for a weapon? The research on violence prevention tends to favour exactly that unglamorous human work. It does not photograph well. It does not come with a slide deck. But it has something the cameras conspicuously lack, which is evidence.
What a responsible framework would demand
None of this means technology can have no role in school safety. It means that a technology installed on a safety promise, paid for with public money, and capable of summoning armed officers to a child, should have to clear a far higher bar than the one it currently faces. A responsible governance framework would rest on three pillars: proof, transparency and consent.
On proof, the standard should be straightforward and, frankly, overdue. Before a system is marketed to schools as preventing violence, vendors should have to demonstrate, through independent evaluation rather than in-house claims, both its accuracy and its real-world effect on the outcome it is sold to prevent. That means published false positive and false negative rates, tested across different lighting conditions, camera placements and, critically, across different skin tones and demographic groups, given the well-documented tendency of computer vision systems to perform unevenly across populations. It means that the burden of proof sits with the vendor making the safety claim, not with the bereaved family forced to litigate the limitations after the fact. The FTC's action against Evolv established the principle that safety claims about AI must be substantiated. A serious framework would make that principle a precondition of sale rather than a punishment after the harm.
On transparency, the Plainedge case is the cautionary tale. No surveillance system that monitors children should be installed without prior public disclosure, a clear public record of what the system does, what it records, where the data goes, who can access it, how long it is retained and which private company stands to profit. School boards should be required to deliberate on these deployments in open session, with the specifics on the table, not buried inside a general line item for security upgrades. A vendor demonstration held after the equipment is already installed is not disclosure; it is a fait accompli with a public-relations gloss. Communities cannot consent to what they have not been told exists.
On consent, the framework has to grapple honestly with the fact that children are a captive and uniquely vulnerable population. Genuine community consent means more than a vendor demonstration after the equipment is already bolted to the walls. It means meaningful consultation with parents, with students old enough to have a view, and with the communities, often communities of colour, who will disproportionately bear the consequences of the system's errors. It means a real mechanism for a community to say no, and to have that no respected. A population that cannot refuse cannot be said to have agreed.
Underpinning all three pillars is a question about the response protocol, which the Baltimore incident exposed so painfully. Even a perfectly accurate detection system would still be only as safe as the human chain it triggers. If the institutional reflex is to escalate every alert toward armed police before a human being has confirmed a genuine threat, then the technology is not reducing risk. It is creating a new vector for it, one that converts a misread crisp packet into a child on his knees in handcuffs. A responsible framework would insist that no automated alert results in an armed response until a trained human has visually confirmed an actual weapon, and would treat the failure to do so not as the process working as intended but as exactly the kind of failure the system was supposed to prevent. The lesson of Baltimore is not that the human in the loop is unnecessary. It is that the human in the loop must have the authority and the protocol to halt the machine, and that a system designed to escalate faster than a person can intervene has been designed to fail.
The thing the machine cannot see
There is a temptation, when writing about algorithmic harm, to treat the algorithm as the villain. It is the easy story, and it is the wrong one. The AI that looked at Taki Allen's bag of Doritos did not decide to handcuff a child. It produced a number, a probability, an alert. Everything that followed, the cancelled-then-re-escalated warning, the call to the resource officer, the officers arriving, the handcuffs, was a human choice layered on top of a machine's guess. The clarinet did not lock down a Florida middle school. People did, acting on what the system told them, inside a culture of fear that has made escalation feel like prudence.
That is precisely why the standard of proof, transparency and consent matters so much. The technology is not neutral, but neither is it autonomous. It is embedded in institutions, incentives and reflexes that determine whether its inevitable errors land softly or land on a child. Right now, those institutions are buying first and asking questions later, installing systems whose central safety promise remains unproven, and absorbing the false positives as the cost of doing business, except the cost is not being paid by the businesses. It is being paid by the teenager who wondered if he was going to die over a snack, and by every child who learns that the building meant to keep them safe is watching them through a lens that cannot tell a clarinet from a rifle.
The companies will say, accurately, that no system is perfect, that they are one layer among many, that the alternative is doing nothing in the face of real danger. But the choice was never between this technology and nothing. It is between spending scarce public money on tools that have not been shown to work, sold by an industry that profits from fear and reframes its own failures as features, and spending it on approaches with a stronger evidence base and a far lower risk of putting a gun in a child's face by mistake. Until vendors can prove their systems prevent the harm they invoke, until communities are told the truth about what is being installed in their children's classrooms, and until consent means something more than a sales demonstration, the honest description of these technologies is not that they keep children safe. It is that they make a promise the evidence cannot keep, and hand the bill to the children least able to afford it. Taki Allen paid part of that bill on a kerb outside his school, with a bag of crisps in his hand and his face on the ground. The least the rest of us can do is stop pretending the machine was doing its job.
References
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Tim Green UK-based Systems Theorist & Independent Technology Writer
Tim explores the intersections of artificial intelligence, decentralised cognition, and posthuman ethics. His work, published at smarterarticles.co.uk, challenges dominant narratives of technological progress while proposing interdisciplinary frameworks for collective intelligence and digital stewardship.
His writing has been featured on Ground News and shared by independent researchers across both academic and technological communities.
ORCID: 0009-0002-0156-9795 Email: tim@smarterarticles.co.uk
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