Abstract

Abstract: This paper presents a novel way for electric power recovery using mobile micro grids. It’s an integration of power electronics with robotics. Conventional power grid has become more complex with more and more Distributed Energy Resources (DER), calling for the need of a more flexible and reliable micro grid architecture. This paper aims to design a micro grid composed of autonomous vehicles that can navigate through a disaster stricken area for the recovery of electric power. The designed mobile micro grid is expected to detect for current failure and navigates to the desired load while simultaneously establishing the electrical connection.

Keywords: Microgrid, Mobile micro grid, Distributed Energy Resources (DER), Power grid

Abstract: Internet of Things (IoT) is an ecosystem of connected physical objects that are accessible through the internet. IOT devices are used in many application fields which make the users’ day to day life more comfortable. These devices are used to collect temperature, Pulse rate, and sugar level etc., which are used to evaluate the health condition of the patient. Communicating the collected information to the doctor, making accurate decision on the data collected and notifying the patient is the challenging task in the IOT. In this project, An IoT based Patient Health Monitoring System (PHMS) using Arduino is proposed to collect the required parameters and evaluate the data obtained from the sensor devices. PHMS with arduino also gives the notifications to patient with possible precautionary measures to be practiced by them. This system suggests the patient with medical care and next step to be followed in case of critical situation. The combination of IoT with arduino is the new way of introducing Internet of Things in Health care Monitoring system of patients. Arduino Uno board collects data from the sensors and transfer wirelessly to IoT website. The Proposed PHMS system is evaluated for certain parameters like heartbeat, body temperature, blood pressure etc. and the decisions can be made based on the data obtained from IoT website.

Keywords: IOT; PHMS; Arduino; Healthcare; Sensor

Abstract: A system to facilitate the collision avoidance capabilities for marine vessels during ocean navigation is presented in this project. This proposed concept also helps to safeguard the ship crossing the border and guides them to go in a right path and save their life. This idea helps in locating the ships and fishing boat using GPS system. This information is transmitted using wireless mode to the control system. The Bluetooth technology helps us to communicate from both the end that is the ship and the control system .Similarly the temperature and humidity is also calculated using respective sensors. Ultra sound sensors is used to avoid ship collision .All the information related to the process is sent to the micro controller unit and process take place .Microcontroller is pre-programmed in such a way to undergo the process .Similarly the border crossing alert is sent to the coast guards from the controller section through the Bluetooth module.

Keywords: GPS, Ultrasound sensor, Microcontroller, Bluetooth