Javascript must be enabled to continue!
AUTOMOTIVE HEALTH TRACKING USING IOT AND ARDUINO
View through CrossRef
This paper is concerned with the development
of an embedded system for detecting the vehicle condition by
monitoring the internal parameters used in evaluating the
vehicle's current health condition. An in-vehicle embedded
system is being developed in this project to generate a vehicle
health report (VHR) whenever the user requires it. It
predicts future errors, allowing the driver to travel without
interruption and avoid accidents. As a result, it warns the
driver of potential errors and assists him in driving safely.
The data needed to generate the health report is made up of
parameter values (outputs of in-built sensors) from various
systems inside the vehicle. Our framework is based on the
Arduino and IoT stages, which are used to separate various
parameters, for example, motor warming and fuel pipe
blockage, for safe and cautious driving. The data is sent to
IoT, where it can be checked by both the vehicle
manufacturer via distributed computing and the vehicle
owner via the Android application. The equipment unit
consists of an Arduino, a WI-FI module, a portable Androidbased device, and a unique parameter checking sensors
module. The ESP8266 WiFi Module is a self-contained SOC
with integrated TCP/IP protocol stack that can give any
microcontroller access to your WiFi network, which is used
in current generation automotive.
Title: AUTOMOTIVE HEALTH TRACKING USING IOT AND ARDUINO
Description:
This paper is concerned with the development
of an embedded system for detecting the vehicle condition by
monitoring the internal parameters used in evaluating the
vehicle's current health condition.
An in-vehicle embedded
system is being developed in this project to generate a vehicle
health report (VHR) whenever the user requires it.
It
predicts future errors, allowing the driver to travel without
interruption and avoid accidents.
As a result, it warns the
driver of potential errors and assists him in driving safely.
The data needed to generate the health report is made up of
parameter values (outputs of in-built sensors) from various
systems inside the vehicle.
Our framework is based on the
Arduino and IoT stages, which are used to separate various
parameters, for example, motor warming and fuel pipe
blockage, for safe and cautious driving.
The data is sent to
IoT, where it can be checked by both the vehicle
manufacturer via distributed computing and the vehicle
owner via the Android application.
The equipment unit
consists of an Arduino, a WI-FI module, a portable Androidbased device, and a unique parameter checking sensors
module.
The ESP8266 WiFi Module is a self-contained SOC
with integrated TCP/IP protocol stack that can give any
microcontroller access to your WiFi network, which is used
in current generation automotive.
Related Results
Security Challenges and Solutions in the Internet of Things
Security Challenges and Solutions in the Internet of Things
The Internet of Things (IoT) is pervasive in today's world and may be located almost throughout. It is employed in smart cities for things like highways and clinics, as well as in ...
Robust Observer-Based Tracking Control of Hodgkin-Huxley Neuron Systems Under Environmental Disturbances
Robust Observer-Based Tracking Control of Hodgkin-Huxley Neuron Systems Under Environmental Disturbances
A nervous system consists of a large number of highly interconnected nerve cells. Nerve cells communicate by generation and transmission of short electrical pulses (action potentia...
Tracking Meat of the Sand
Tracking Meat of the Sand
Abstract
This article explores the skilled arts of tracking and gathering as methods for noticing and theorizing multispecies landscapes in the Kalahari Desert, Bots...
Evaluation of Performance of Cloud of Things (CoT) for Transferring Multimedia and Bulk-set Data
Evaluation of Performance of Cloud of Things (CoT) for Transferring Multimedia and Bulk-set Data
As the number of context-aware and unique data extracting and computing has grown leaps and bounds, paving way to their application in many platforms, Internet of Things (IoT) has ...
From "Barefoot Doctor" to "Village Doctor" in Tiger Springs Village: A Case Study of Rural Health Care Transformations in Socialist China
From "Barefoot Doctor" to "Village Doctor" in Tiger Springs Village: A Case Study of Rural Health Care Transformations in Socialist China
During the 1970s, a wave of publications emerged in "the West" on the dramatic Cultural Revolution developments which were taking place in rural health care in the People's Republi...
Connecting the dots: Internet of things and human resource management
Connecting the dots: Internet of things and human resource management
With each organization gradually turning out to be based on innovation to better supervise business activities, HR pioneers must choose the option to adjust to advancements in like...
Assimilation of IoT sensors for Data Visualization in a Smart Campus Environment
Assimilation of IoT sensors for Data Visualization in a Smart Campus Environment
Recently, various indoor based sensors that were formerly separated from the digital world, are now intertwined with it. The data visualization may aid in the comprehension of larg...
Why Cuban Solidarity Was Ebola's Antidote: How Cuban Medical Internationalism is Radically Changing Health Geographies in the Global South
Why Cuban Solidarity Was Ebola's Antidote: How Cuban Medical Internationalism is Radically Changing Health Geographies in the Global South
When the world responded to the 2014 Ebola outbreak a lot went wrong. Vaccines were promised but never delivered. Health workers were called for, but never arrived. Patients needed...