Abstract
Background: Over time, multichannel time series data were utilized for the purpose of modeling human activity. Instruments such as an accelerometer and gyroscope which had sensors embedded in them, recorded sensor data which were then utilized to record 6-axes, single dimensional convolution for the purpose of formulating a deep CNN. The resultant network achieved 94.79% activity recognition accuracy on raw sensor data, and 95.57% accuracy when Fast Fourier Transform (FFT) knowledge was added to the sensor data. Objective: This study helps to achieve an orderly report of daily Human activities for the overall balanced lifestyle of a healthy human being. Methods: Interfacing is done using Arduino Uno, Raspberry-Pi 3, heart rate sensor and accelerometer ADXL345 to generate real time values of day-to-day human activities such as walking, sleeping, climbing upstairs/downstairs and so on. Initially, the heart pulse of our four tested individuals is recorded and tabulated to depict and draw conclusions all the way from “Low BP” to “Heavy Exercise”. The convolution neural network is initially trained with an online human activity dataset and tested using our real time generated values which are sent to the MAC OS using a Bluetooth interface. Results: We obtain graphical representations of the amount of each activity performed by the test set of individuals, and in turn conclusions which suggest increase or decrease in the consistency of certain activities to the users, depicted through our developed iOS application, “Fitnesse”. Conclusion: The result of this works is used to improve the daily health routines and the overall lifestyle of distressed patients.
Highlights
After the use of hardware sensors, there evolved a popular method for recognizing human activity, through Google Activity Recognition API [1 - 3]
The convolution neural network is initially trained with an online human activity dataset and tested using our real time generated values which are sent to the MAC OS using a Bluetooth interface
This led to the increase in demand for smart phone-based activity recognition systems and the overall study and research narrowed down the two most efficient categorization methods like Random Forest and One-Dimensional Convolution Neural Network
Summary
After the use of hardware sensors, there evolved a popular method for recognizing human activity, through Google Activity Recognition API [1 - 3]. Another study depicted that Research Studies and Statistical Reports conducted by Ericson Consumer Lab in this regard reported increased percentage in the number of smart phones users from 36% in 2013 to70% by 2020 [6,7] This led to the increase in demand for smart phone-based activity recognition systems and the overall study and research narrowed down the two most efficient categorization methods like Random Forest and One-Dimensional Convolution Neural Network. The resultant network achieved 94.79% activity recognition accuracy on raw sensor data, and 95.57% accuracy when Fast Fourier Transform (FFT) knowledge was added to the sensor data
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
