There has been a lot of negative reaction of late to virtual proctors of online exams. Perhaps students miss the cheery camaraderie of traditional proctored exams, sitting silently in a sweaty room with pen and paper, doing one of the highest stakes, highest stress tasks of their lives, with someone scrutinizing their every nervous tic whose adverse judgment may destroy their hopes and careers, for the benefit of an invisible examiner whose motives and wishes are unclear but whose approval they dearly seek. Lovely. Traditional. Reassuring. A ritual for us all to cherish. It’s enough to bring a tear to the eye.
But exams cost a huge amount of money to host and to invigilate. It is even worse when one of the outcomes might, for the student or the invigilator, be death or disability due to an inconvenient virus.
I have a better solution.
Instead of costly invigilators and invigilation centres, all we need to do is to send out small (returnable, postage-paid) robots to students’ homes. A little robot sitting on the student’s desk or kitchen table as they sit their written exam (on paper, of course – tradition matters), recording every blink, watching their fingers writing on the paper, with 360 degree panoramic camera and the ability to zoom in on anything suspicious or interesting. Perhaps it could include microphones, infrared and microwave sensors, and maybe sensors to monitor skin resistance, pulse, etc, in order to look for nefarious activities or to call the ambulance if the student seems to be having a heart attack or stroke due to the stress. It could be made to talk, too. Perhaps it could offer spoken advice on the process, and alerts about the time left at carefully selected intervals. Students could choose the voice. It would also allow students to sit exams wherever and whenever they please: we are all in favour of student choice. With a bit of ingenuity it could scan what the students have written or drawn, and send it back to an examiner. Or, with a bit more ingenuity and careful use of AI, it could mark the paper on the spot, saving yet more money. Everyone wins.
It would be important to be student-centric in its design. It could, for instance, be made to look like a cute little furry animal with googly eyes to put students more at ease. Maybe it could make soothing cooing noises like a tribble, or like a cat purring. Conversely, it could be made to scuttle ominously around the desk and to appear like a spider with venomous-looking fangs, making gentle hissing noises, to remind students of the much lamented presence of in-person invigilators. Indeed, maybe it could be made to look like a caricature of a professor. More advanced models could emit bad smells to replicate invigilator farts or secret smoking habits. It could be made small and mobile, so that students could take it with them if they needed a bathroom break, during which it might play soothing muzak to put the student at ease, while recording everything they do. It would have to be tough, waterproof, and sterilizable, in order to cope with the odd frustrated student throwing or dunking it.
Perhaps it could offer stern spoken warnings if anomalies or abuses are found, and maybe connect itself to a human invigilator (I hear that they are cheaper in developing nations) who could control it and watch more closely. Perhaps it could be equipped with non-lethal weaponry to punish inappropriate behaviour if the warnings fail, and/or register students on an offenders database. It could be built to self-destruct if tampered with.
Though this is clearly something every university, school, and college would want, and the long-term savings would be immense, such technologies don’t come cheap. Quite apart from the hardware and software development costs, there would be a need for oodles of bandwidth and storage of the masses of data the robot would generate.
I have a solution to that, too: commercial sponsorship.
We could partner with, say, Amazon, who would be keen to mine useful information about the students’ surroundings and needs identified using the robot’s many sensors. A worn curtain? Stubborn stains? A shirt revealing personal interests? Send them to Amazon! Maybe Alexa could provide the voice for interactions and offer shopping advice when students stop to sharpen their pencils (need a better pencil? We have that in stock and can deliver it today!). And, of course, AWS would provide much of the infrastructure needed to support it, at fair educational prices. I expect early adopters would be described as ‘partners’ and offered slightly better (though still profitable) deals.
And there might be other things that could be done with the content. Perhaps the written answers could be analyzed to identify potential Amazon staffers. Maybe students expressing extremist views could be reported to the appropriate government agency, or at least added to a watch-list for the institution’s own use.
Naysayers might worry about hackers breaking into it or subverting its transmissions, or the data being sent to a country with laughable privacy laws, or the robot breaking down at a critical moment, or errors in handwriting recognition, but I’m sure that could be dealt with, the same as we deal with every other privacy, security, and reliability issue in IT in education. No problem. No sir. We have lawyers.
The details still need to be ironed out here and there, but the opportunities are endless. What could possibly go wrong? I think we should take this seriously. Seriously.
I enjoyed this. You might enjoy some work my friend Autumm Caines did for a conference earlier this year. Also in the vein of speculative futures: https://autummcaines.com/compelu/ I take full credit for the “exam kit” ad banner.
I did indeed enjoy that! Thank you!
Excellent start, and I propose taking this one step further with the use of Ludivoco II, an electronic brain implant. Not only could it monitor what the student is seeing and hearing, but also it would deliver an electrical shock when detecting any incipient urges to cheat.
Perfect! With further development it could send information directly to the student’s brain, thereby bypassing the need for teaching altogether.