Micro IoT architecture to build a smart glass with basic features
Smart glasses are wearable computing devices that layer information onto a user’s field of view. Why Smart Glasses? Smart glasses are computing devices worn in front of the eyes. Evidently, their displays move with the users head, which leads to the users seeing the display independently of his or her position and orientation. This report focuses on how to develop cheap smart spectacles with basic features in it. Basic features like computing humidity, time, temperature, maps for navigational purposes and a game for user’s entertainment. We are going to design a micro-IoT architecture with different kinds of sensors and modules to perform the above-mentioned computations.
Published by: Prahelika V., Harini V., Sneka I.
Author: Prahelika V.
Paper ID: V4I5-1406
Paper Status: published
Published: October 15, 2018
Smart location clock
In this project, we have engineered a way to reconstruct the traditional location tracking software into a smart location clock. The location clock paves the way for an uncomplicated technique for location tracking. Using our system, users can trail the movements of any person or their family members who are connected to the clock. The project enables the trailing of people to their most frequently visited places. The clock embodies a symbolic representation of the frequently visited places of members in the family or the person in the place of numbers and each hand of the clock is designated to each person or family member. When a change in location is posted, the hand of the corresponding member shifts accordingly. This model or project is implemented with the help of a mobile application-”Owntracks”, CloudMQTT, GoogleFire base, Raspberry pi 3 B, Paho Python , Node Red, and a servo motor to shift the hands of the clock. This model can be used for vast applications.
Published by: Vijay Balaji, Hani Saravanan, Srivarshini Srinivasan
Author: Vijay Balaji
Paper ID: V4I5-1405
Paper Status: published
Published: October 15, 2018
Photocatalytic concrete pavements: Laboratory investigation of NO elimination by using TiO2 and flyash
In recent years there is a change in atmospheric condition. One of the major reason behind this change is air pollution which is increasing day by day. Air pollution is mainly due to rapid industrialization and increases in a vehicular transportation system. The major components of air pollution such as SOx , NOx, CO, and many other gases are released due to the combustion of a vehicle engine. In developing country like India, roadways play a key role in the transportation system. Hence to curb the effect of this transportation system on our ecosystem new ways of elimination of this pollutants shall find out. Hence an attempt is made in this research to construct the pollution absorbing pavements i.e. to construct such pavements which will absorb these harmful pavements. The main aim of this research is to investigate the elimination of NOx i.e. Nitrogen Oxides by casting pavements of Cement, Flyash, Recycled Glass and Photocatalyst such as TiO2, i.e. Titanium Dioxide or Titanium (IV) oxide under varied conditions
Published by: Mayur Surendrakumar Gangwal, Dr. Basavraj Balapgol
Author: Mayur Surendrakumar Gangwal
Paper ID: V4I5-1419
Paper Status: published
Published: October 15, 2018
Magnet engine: An environment-friendly approach
The developing of Internal combustion engines and also demand is growing for the need of Fossil fuels for vehicles . present a lot of emissions came from the combustion engines, so humans heading for electric vehicles. The scenario of travelling is changing rapidly with metros, electric rails, electric aeroplanes (solar),..etc. Hence we require products with more power but also with higher efficiency. Magnetism possesses a magnificent opening for development. Bullet trains using the technology of magnetic levitation have proved the strong nature of electromagnetic fields. Keeping in mind the arising needs of the industry, in this project I tried to design and experiment, a system called Magnet engine, which make use of magnet repulsion force to drive .The working principle is based on repulsion force from both permanent magnet and electromagnet. The combined repulsive forces will develop the power strokes in each cycle and to generate the mechanical power .successful implement in this field can actively switch over internal combustion engines.
Published by: Bhanu Kishore Kodaru
Author: Bhanu Kishore Kodaru
Paper ID: V4I5-1391
Paper Status: published
Published: October 15, 2018
Parameters optimization of fused deposition modelling process for the improvement of tensile strength using Taguchi based grey relational analysis
FDM is an additive manufacturing method and the prototypes are made by layer by layer addition of semi-molten plastic material onto the platform from bottom to top. The design inspects the effect of the process parameters layer thickness, orientation and layer spacing that affects the tensile strength of the part produced by the Fused Deposition Modelling. Hence, the Optimization of these process parameters of FDM is able to make the system more specific and repeatable and such progression can guide to use of FDM in rapid manufacturing solicitations rather than only producing prototypes. The PLA material was used in this research work to build parts. The experimentation has been completed with the help of Taguchi L9 orthogonal array. Taguchi grey relational analysis is used to optimize the process parameters on multiple performance characteristics such as tensile strength. The proposed method enables decision analysts to better recognize the complete evaluation process and provide maximum tensile strength.
Published by: Govind Prasad Patel, Ashish Parkhe
Author: Govind Prasad Patel
Paper ID: V4I5-1415
Paper Status: published
Published: October 13, 2018
Analytical method development of Bromacil + Terbuthylazine pesticide (combination) formulation by Reverse Phase High-Performance Liquid Chromatography (R–HPLC)
The combination of the two molecules (Bromacil & Terbuthylazine) is being used effectively as a weedicide worldwide due to its unique way of acting to kill the weeds. Since these two molecules (Bromacil & Terbuthylazine) has very good penetrating power in the earth crust, it is very important to get analysed for its identification and quantification to determine the shelf life in the substrate by detecting the minimum residue level (MRL) in the existing substrate. A simple HPLC chromatographic method has been developed and subsequently validated for the combination pesticide (Bromacil + Terbuthylazine) separation and quantification. These molecules were separated through a mobile phase consisting of the mixture of acetonitrile and water ratio of 80:20 v/v. The separation was achieved through the Qualisil BDS C18 (250 x 4, 5μ) column with the flow rate as 1.0 ml/min with the detection at 220 nm. These method parameters were loaded in the Shimadzu HPLC (model: LC-2030). The LC solution Shimadzu software was used for all the calculations in this analytical method validation analysis. The results of the study showed that the proposed RP-HPLC method is simple, rapid, precise and accurate, which is useful for the identification and quantifications of these molecules interims of validation parameters viz., separation, system suitability, System Precision and linearity in a simple HPLC analysis.
Published by: Ayyavoo Kaliyan, Dr. C. Tamilselvan
Author: Ayyavoo Kaliyan
Paper ID: V4I5-1390
Paper Status: published
Published: October 13, 2018
