Keywords : LCD


IoT Based System to Measure Vehicle and Driver Parameters

Ravindra Parab; Manav Jain; Sudhanshu Chaturvedi; Siddharth Chandnani; Anuj Chouhan

International Research Journal on Advanced Science Hub, 2021, Volume 3, Issue Special Issue ICIES-2021 4S, Pages 6-11
DOI: 10.47392/irjash.2021.102

Accountable for performing important maintenance checks and changes in a high-stakes, high-pressure environment, today’s pit crew teamsare termed to be of equal importance as the driver. Assisting the driver at key moments throughout the race, which could be as many as 500 rounds around the circuit, the average pit stop happens over the course of a swift 12-seconds. There’s no room for error as the pit crew’s precision, timing and decision making is crucial to the safety and resulting performance or the driver and the team as an overall. In a race where every microsecond counts, a wrong decision or a mistake by the crew members for a pit stop will certainly change the result of the race. The crew (and the team) makes the decisions based on vehicle and driver parameters such as individual tire pressure, Fuel level, Driver heartbeat/pulse and also the driver’s body temperature. For this project, Team Xelerate plans to implement an on-board system on a moving vehicle that will read, measure and calculate all the required vehicle parameters using sensors. Parameters such as Engine/Shaft RPM, Velocity, Instantaneous Acceleration/Deceleration and many more shall be fed to a Display module which would be mounted on the steering for better access. Also, by incorporating IOT, all necessary parameters (Vehicle and Driver) would be sent to a secure remote server which would be accessible to all crew members in the pit.

Medical Assistive Robot (MAR)

Karthikeyan A.G.; Kishan K; Pattabiraman M; Prathiv S

International Research Journal on Advanced Science Hub, 2020, Volume 2, Issue Special Issue ICAMET 10S, Pages 71-75
DOI: 10.47392/irjash.2020.201

Accessibility to basic healthcare is an important one in terms of development towards building a healthy future. The MEDICAL ASSISTIVE ROBOT is a device used to provide correct medication at correct time with the right amount of dosage without the aid of nurse. The robot also act as path following robot so there is no need to reach the robot in order to take the pill instead of that robot will reach the patient, it also consist of an object detecting sensor(IR) to avoid the obstacle in the path. The device uses RFID card to link the patient id which hold all the data of the patients such as identity and their prescription etc.. A specially designed wheal like structure with N number of slots acts as pill storage space. The arduino microcontroller used to automate the whole process. Each slot of pill storage named to a particular tablet in terms of rotating angle of stepper motor. Suction pump used to pick the pill. The process starts when the user taps the RFID card. In this work the device is designed and manufactured in an efficient way. There are some other devices that perform similar function Ex: The Automatic pill dispenser, All time medication but this project deals with integration of the doctors prescription, which results in overcoming the manual error. The objective of this project is to reduce the avoidable medication errors in the absence of the doctor also help the older people who are poor in memory.