Accofrisk was founded in 2008 by Dr.Oleg Tikhonenko. The startup began its development with a clear idea to simplify the lives of people with diabetes, and now the work of our team and the company's movement forward is based on research into innovative methods of measuring human health indicators and the development of devices based on these methods.
The company's flagship product is a smartwatch for non-invasive monitoring of major body systems, and the company plans to develop aline of devices and solutions in the areas of health monitoring,diabetes prevention, healthy aging and mass measurement.
The core of our products is ARIA artificial intelligence based on aneural network trained on health monitoring data from over 2 millionpeople.
The company operates in the global market through representative offices and a network of partners. To this point, about 250,000 devices have been sold in China.
"Our team is committed to creating a Digital Health Tracker for the user, where data and AI will tell you about abnormalities before symptoms of disease appear, and the diagnosis will be made at the first visit to the doctor without additional tests."
ACCOFRISK FOUNDER, Dr.OLEG TIKHONENKO.
Electronic Research Conference. International Scientific Solutions 2022.
February 9, 2022. Ney York.
Interuniversity Scientific Congress "Higher School: Scientific Research".
January 9, 2023. Moscow.
16
YEARS OF WORK
10
PATENTS
5
PARTNERS
3
COUNTRIES OF WORK
A form factor for those who do not wear watches (30% of people) but want to monitor their health.
A budget model with simplified functionality to replace traditional fitness bracelets.
Multi-person data measurement terminal for discrete periodic measurements.
Accofrisk Health platform launch with clinic functionality, open API and patient portal.
The article is devoted to the objectification of pulse diagnostics, methods of extraction and analysis of pulse parameters and pulse signal processing, to explain morphological changes in various pulse wave forms, based on optical methods and the use of wearable devices working with photoplethysmography to solve these problems.
This paper proposes a method for non-invasive blood sugar determination by arterial pulse. A technique has been developed to collect volumetric pulse wave signal and thermal metabolic signal at the radial artery of the subject's wrist. This method will allow everyone to monitor blood glucose levels according to a personalized effective range of blood glucose levels based on a scientific approach.