A fertility monitoring apparatus measures body temperature and saliva or cervical fluid resistivity. The clinical device includes a sensor, processor and transmitter to wirelessly deliver information to a computerized device such as a smart phone, tablet, or laptop for further analysis and display. The computerized device is programmed with software to receive, analyze, display, and/or transmit the raw or processed information. The programmed computerized device computes fertility information of the user. A central fertility platform includes a programmed computing device, and a database of fertility information from multiple users. Input from user accounts are fed into the platform and stored in the database. Exemplary inputs include the users age, cycle length, diagnosis of fertility, reproductive health information. The platform both provides feedback to the user and learns from the data collected to improve upon or self-modify calculations using machine learning, artificial intelligence, and data mining approaches.
