MODELING FOR CERVICAL CANCER DETECTION USING CNTFET ARRAY SENSORS AND SIGNAL CONDITIONING CIRCUITS

The need for highly advanced and reliable medical items that can meet the urgent demands of people is always rising. Modern biomedical gadgets that support and aid physicians and may help save our lives have been made possible by technical advances in signal processing, bio electronics, and automation. A biosensor is a tool used to track and assess a person's health in order to support maintaining it. In the current situation, illness-causing bio organism prevention is more crucial than disease identification at lower levels. To accomplish early illness detection, several researchers are putting out novel concepts in the area of biosensor. The performance study of CNTFETs with silicon nanowire, the electrical characteristics of CNTs and CNTFET designs, and the state-of-the-art in HPV detection techniques are all included in this article. For the purpose of detecting cervical cancer, a carbon nanotube FET sensor array and associated signal conditioning circuit are designed, modelled, and their performance is examined.