The advancement of technology continually assists humans in their daily lives. These can include products like mobile phones or medical innovations like the “Smart Toilet”. A new iteration of the smart toilet is being developed by Stanford University, which will use a sequence of sensors and cameras to determine your “Anal Footprint”. Data will be collected on bodily waste to locate potential medical issues that require the assistance of healthcare professionals.
Identifying the user of these smart toilets will be maintained through the “Anal Footprint”. This means multiple individuals in one household can operate the toilet. Stanford University announced their latest project through the Nature Biomedical Engineering Journal, with the scientific community intrigued with what these smart toilet can offer consumers. It should be noted that whenever the “Anal Footprint Smart Toilet” is released to retailers, the associated cost will be substantial.
Researchers with Stanford University were compiling data on the human body when it was noted that the anus has 35/37 Creases. These creases act like fingerprints and will allow the AFST to determine who is using the smart toilet. When it applies to the medical capabilities, the sensors and cameras assist a miniaturized computer in determining health concerns within the body. It should be noted that Stanford University anticipates releasing a modular version of this technology, which could be placed onto any standard toilet.
Motion Sensors will locate urine streams from consumers, analyzing the data with medical sensors to ensure that flow rates are consistent with a healthy body. Similar technologies are improved when it applies to bodily waste, ensuring that the excrement doesn’t have any harmful bacteria that could cause sicknesses. Technologies of this nature weren’t possible five years ago; it’ll be interesting to see what’s capable with Stanford Universities technology over the next decade. Smart toilets could become our go-to for self-evaluations.
It should be noted that studies were conducted for a prolonged period with Stanford University. Throughout six months, stool and urine samples were collected for research purposes. Algorithms were built to assist these medical and motion sensors. Over the six months, flow rates and medical reports on bodily waste were comprised. Data was compressed, and today a workable product is maintained.