Online ISSN: 2515-8260

Keywords : embedded system


CERTAIN INVESTIGATION ON MONITORING THE LOAD OF SHORT DISTANCE ORIENTEERING SPORTS ON CAMPUS BASED ON EMBEDDED SYSTEM ACCELERATION SENSOR

D. Jayakumar; Dr.U. Palani; D. Raghuraman; Dr.D. StalinDavid; D. Saravanan; R. Parthiban; S. Usharani

European Journal of Molecular & Clinical Medicine, 2020, Volume 7, Issue 9, Pages 2477-2494

Orienteering means that it is necessary to identify competitors, with a particular focus on
the city on a predetermined terrain or with the help of a guide. Their ability to integrate
their actual perseverance with the mental cycles in this game, which is predicted by the
execution of time, and adapt to the environment and regulate them effectively. Acceleration
Sensors notes that these choices are the courses chosen and each course has its own
environmental features. Competitors must then disassemble these characteristics well and,
therefore, choose the course for the embedded system based on the campus.The data
collected was verified by quantitative and subjective strategies and an overall
understanding of the behaviour of competitors and the qualification of moldable and
subject-subordinate components in the dynamics of competitors. A model was developed
from the model capable parts that recorded the separation and the short separation based
on the landscape surface and subsequently analyzed its similarity to the practises of the
competitors. Moreover, different factual observations justified the results.According to the
Data Pathway Algorithm, environmental factors play an important role in competitor
dynamics and the implementation of the model is much more precise in short-segmented
courses than in important distance courses that reduce the psychological burden.

Pregnancy women fetal heart rate and kicking monitoring using embedded system

T. Annalakshmi; G. Durgadevi; Dr.R.Alarmelu Mangai; P. Yaswanth

European Journal of Molecular & Clinical Medicine, 2020, Volume 7, Issue 11, Pages 7687-7692

Fetal observing during pregnancy time is the most essential to spare the life of the mother just as the kid. In this task, we present a gadget that is utilized to quantify the fetal pulse during the hour of pregnancy. The significant part utilized for this discovery is Fetal Digital stethoscope sensor which is to be put on the mid-region of the pregnant and the signs are prepared by the miniature regulator utilized and the precise fetal pulse is recognized and sent as an instant message to the individual cell phone through the use of GSM module and furthermore by the utilization of EMG sensor the uterus compression likewise be reproduced as the yield on the work area. This framework is entirely adaptable and ease encourages the patient to screen the fetal pulse in home.