Accident Prevention Equipment



According to WHO, road accidents crashes are the ninth main reason for dying and are responsible for two.2% of all deaths worldwide. Almost 1.25 million persons are dying in highway accidents yearly, about 3,287 deaths in a day. Additionally, 20-50 million individuals are injured or disabled. Unless motion is taken, by 2030, street traffic accidents will become the fifth main cause of death[11]. Majority of the accidents in highways are due to over speeding and rash driving. Some accidents are additionally because of human fatigue and health problems with car drivers.

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IoT healthcare also known as the internet of health issues is doubtless one of the utility of IoT for well being and medical functions, knowledge acquisition and research, as properly as monitoring of health. IoT it has numerous purposes such as remote monitoring, medical gadget integration, good sensors, and so forth. The remote monitoring systems include blood stress, heart-rate displays to specialised units corresponding to Fitbit, hearing aids, etc. Hospitals have also carried out “smart beds” that are in a place to detect when a patient is attempting to get up.

It can modify the pressure and assist with out manual interaction. Additionally, the usage of mobile devices for real-time monitoring, storage, and transmission of health-related information collected from sensors and biomedical devices is termed as m-health or mobile-health.

IoT methods have additionally been acknowledged as a possible resolution to determine human fatigue and recognize different health-related problems with the drivers, and are also capable of detecting if the car is over rushing or cases of rash driving, etc.

There has been a considerable amount of analysis in the monitoring of well being using IOT systems. Wearable ECG monitors, smart helmets to monitor neural and mind exercise, systems to detect drowsiness have been developed.

ESP32 is a low-power, low-cost microcontroller which has integrated Wi-Fi along with dual-mode Bluetooth. It has a 32-bit LX6 microprocessor, that operates at 160 or 240 MHz. It supports Wi-Fi 802.eleven b/g/n, and Bluetooth v4.2 BR/EDR, Bluetooth Low Energy protocols.

Electrocardiogram (ECG) supplies one of the best ways to observe human health. An electrocardiogram is the electrical exercise of the human coronary heart. It consists of a P-wave, QRS- complex, T-wave, U-wave. Using the options of those waves, it’s possible to calculate the center fee or beats per minute, detect any coronary heart illnesses similar to a myocardial infarction. The coronary heart price of a traditional particular person is 60 to a hundred beats per minute. Any coronary heart price lower than 60 bpm, accounts to a condition known as bradycardia and if the heart fee is more than a hundred bpm, the situation is named tachycardia. Using the guts price and some additional data, other states of the driving force similar to stress, nervousness, drowsiness, alcohol consumption, the adrenaline rush could be detected.

The proposed system intends to comprehend a continuous ECG monitoring system for automotive drivers using the AD8232 ECG sensor and ESP32 microcontroller. It constantly data the ECG indicators of the motive force, filters it, detects the R-peaks, to calculate the center rate, and in addition detects any abnormalities within the ECG signal because of any heart-related illnesses utilizing a polynomial regression strategy. Upon the detection of any abnormalities, it provides an emergency notification system.


The system might be primarily composed of a central unit that’s responsible of receiving data, and detecting coronary heart beat , data accumulating and transferring to the central unit. It is applied with as low value as attainable to render its substitute reasonably priced in case of a sudden coronary heart attack .Ecg sensors will in this case act as mentors to regulate the unit. This will guarantee a excessive reduction of threat on their lives.

Ultrasonic sensors unit will communicate with the central unit to send speed info as soon as collecting them. This will insure the receiving of all needed data even in case of shedding the unit. Information transferred is usually the situation of every detected suspected object and pictures from that location.


Nowadays individuals are driving very fast, accidents are occurring incessantly, we lose our useful life by making small errors while driving . To develop a system that can prevent fatal motor vehicular accidents because of irregular health situation of the driver, over-speeding and undetected obstacles. To measure ECG signals of the driving force, store it in a cloud and use machine studying to research the driver’s heart fee patterns and detect stress and deadly health issues. To detect over dashing of the vehicle utilizing Ultrasonic sensors.PROPOSED SYSTEM

The system continuously screens the driver’s ECG indicators utilizing an ECG sensor which is then sent to the microcontroller. The recorded ECG sign is processed using MATLAB to discover out whether or not the driving force is match or unfit for driving. Based on the choice, a notification will be sent to the motive force if he is unfit for driving.


This phase surveys the associated strategies for every of the part of the system over the 12 months which incorporates different models for and their developments.

Literature Survey

The lateral survey of various approaches to land mine detection has been presented.

G. Wolgast et al. In [1], body space network (BAN) with two electrodes for measuring an electrocardiogram (ECG) sign and one electrode for reference and transmitting it to a smartphone by way of Bluetooth for knowledge analysis were described. The user’s personal smartphone was utilized for information processing and can be utilized to generate an alert if an irregular coronary heart condition is detected. The system had three use circumstances: monitoring of ECGs of a person, continuously, myocardial infarction and other deadly heart-related malfunctions might be detected hours earlier than. During a myocardial infarction, the ECG readings of a person have a distinct ST elevation, which can be used to detect heart assaults.

An arm-band based mostly ECG sensor, which is simple to put on has also been described by Rachim & Chung [2], by which capacitive coupled electrodes had been implanted in an armband. Silver coated polyester ECG electrodes have been used which had been all positioned in a single arm-band. This armband sensed ECG signals and despatched them to a smartphone through Bluetooth. Peak detection was carried out using Pan and Tompkins algorithm.

W. Von Rosenberg, et al. In [3], A good helmet that can monitor ECG, EEG (electroencephalogram), respiration and neural and brain activity to detect seizures, drowsiness, stress, the anxiousness of drivers. Sensors embedded in helmets provide a convenient way to monitor the signals without disrupting the motive force. The sensible helmet consists of a quantity of electrodes placed on the positions of the lower jaw, mastoids, and brow inside a regular helmet. A multi-variate R-peak detection algorithm is used which is suited for noisy environments E. Span?, S. D. Pascoli, and G. Iannaccone talk about a wearable system for long term monitoring of a user’s health without assistance that requires much less energy. It can even monitor several sufferers with the same infrastructure and thus also reduces the price per patient. The system makes use of an ECG sensor consisting of a chest belt that’s battery powered. The belt consists of two dry plastic electrodes and digital Printed Circuit Board. The chest belt enables the recording and steady transmission of the ECG alerts during day by day actions.

A system for a particular function such as detecting a driver’s drowsiness using EEG alerts has been mentioned by G. Li et al. in [5]. An EEG system consisting of a Bluetooth-enabled wearable EEG headband and a wearable smartwatch was used for a easy, low cost and feasible answer for driver drowsiness detection. The system makes use of a probabilistic model primarily based on Support Vector Machine to transform the drowsiness stage to a price between zero and 1 in place of discrete classes.

Another system for stress management has been discussed by U. Ha et al. in [6], that makes use of a wearable headband and earplugs to watch EEG indicators, hemoenceophalography (HEG), and coronary heart price variability (HRV) to watch and monitor the user’s mental health. It uses the multimodal measurement of mind exercise similar to neural, vascular and autonomic domain indicators which would possibly be combined with canonical correlation analysis (CCA) and temporal kernel canonical correlation evaluation (tkCCA) algorithm to search out the neural-vascular-autonomic coupling. In every domain, that’s, neural, vascular and autonomic, the patterns of change in a sign are diversified in case of psychological stress and rest.

The creators have exhibited EBM (Eye Blink Checking) procedure, which cautions the focus amid languor state. An implanted framework relies upon the psychological condition of middle by way of observing head developments and eye developments are helpful in alarming drivers on the rest cycle section of sleepiness. A customary eye flicker minute has no impression on the framework results

Scientists have deliberate Automated Speed Recognition System which will acknowledge the vehicle’s pace additionally, in the event that overspeeding happens, evacuate the particular vehicle’s permit quantity and ship it through mail to Toll Plaza so as to arraign fine. Here, Doppler Effect noticeable actuality is utilized for estimating the pace. In the case of overspeeding is acknowledged, at that point a digital camera catches the image of a car naturally; and DIP (Digital Image Processing) strategies are utilized to expel the permit quantity. The discoveries have uncovered that the created framework distinguishes overspeeding car effectively, mines the allow quantity, has unimaginable execution and could be utilized on streets to try out for overspeeding automobiles.

The specialists , in [3], have structured and created a novel framework, which can proficiently distinguish pace infringement on streets and causes driver to treat site visitors runs by keeping up speed alongside the recommended speed limit. The created framework accommodates RFID (Radio Frequency Identification), GSM (Global Framework for Mobile) and PIC (18F45K22). This framework has given solid, ease, highly effective outcomes and steady warning.

In [4], the creators have proposed another Vibration Sensor Device that was decided to the vehicle. Assuming any mishap happens, vibration is actuated and afterward vehicle’s space has been recognized with the help of GPS locator. Quickly, the prevalence has been insinuated to Patrol and Life bolster so as to recover the mishap just as suspect is to be adopted by methods for GPS locator. The analysts have assessed the speed of autos by joining the accelerometer readings for the duration of the time and resolve the rushing up shortcomings.Across the board analyzes had been completed with the objective that sensor pace is precise and stable on genuine driving airs.

The creators in [5] have introduced a framework to recognize rash driving on the roadways simply as to alarm the visitors consultants if there is any infringement. Numerous approaches require human focus and connect with quite a few endeavors that is unpredictable to execute. In this article, the scientists have meant to propose a gadget for the early recognition and gave alarm of dangerous automobile amid examples linked to rash driving. The entirety usage wants IR transmitter and beneficiary, a bell and a management circuit. On the off chance that the vehicle surpasses so far as attainable, at that time a bell flag sounds cautioning the police.


  1. G. Wolgast, C. Ehrenborg, A. Israelsson, J. Helander, E. Johansson, and H. Manefjord, ”Wireless body space network for heart attack detec- tion [education corner],” IEEE Antennas Propag. Mag., vol. 58, no. 5, pp. 84-92, Oct. 2016.
  2. V. P. Rachim and W.-Y. Chung, ”Wearable noncontact armband for cell ECG monitoring system,” IEEE Trans. Biomed. Circuits Syst., vol. 10, no. 6, pp. 1112-1118, Dec. 2016.
  3. W. Von Rosenberg, T. Chanwimalueang, V. Goverdovsky, D. Looney, D. Sharp, and D. P. Mandic, ”Smart helmet: Wearable multichannel ECG and EEG,” IEEE J. Transl. Eng. Health Med., vol. four, 2016, Art. no. 2700111.
  4. E. Span?, S. D. Pascoli, and G. Iannaccone, ”Low-power wearable ECG monitoring system for multiple-patient distant monitoring,” IEEE Sen- sors J., vol. 16, no. thirteen, pp. 5452-5462, May 2016.
  5. G. Li, B.-L. Lee, and W.-Y. Chung, ”Smartwatch-based wearable EEG system for driver drowsiness detection,” IEEE Sensors J., vol. 15, no. 12, pp. 7169-7180, Dec. 2015.
  6. U. Ha et al., ”A wearable EEG-HEG-HRV multimodal system with simultaneous monitoring of tES for psychological health management,” IEEE Trans. Biomed. Circuits Syst., vol. 9, no. 6, pp. 758-766, Dec. 2015.
  7. Aishwarya et al. S. R. (2015), “An IoT Based Accident Prevention & Tracking System for Night Drivers”, International Journal of Innovative Research in Computerand Communication Engineering, 3 (4), pp. 3493-3499.
  8. Malik et al. (2014), “Automated Over Speeding Detection and Reporting System”, IEEE Xplore, pp. 1-7.
  9. Shabibi L. A., Jayaraman N. and Vrindavanam J. (2014), “Automobile Speed Violation Detection System using RFID and GSM Technologies”, International Journal of Applied Information Systems, Vol. 7, No. 6, pp. 24-29.
  10. Prasanth P. and Karthikeyan U. (2016), “Effective Tracking of Misbehaviorial Driver & Over Speed Monitoring With Emergency Support”, International Journal of Advanced Research in Computer Engineering & Technology, 5 (10),pp. 2527-2529.
  11. Rangan P. R. (2017), “Vehicle Speed Sensing and Smoke Detecting System”, International Journal of Computer Science and Engineering, pp. 27-33.