Intellectual Bank Locker Security SystemIJERA Editor
In today's modern world, security plays an important role. Every person has precious accessories like gold,
documents or cash. The main goal of this project is to design and implement a bank locker security system
based on fingerprint and GSM technology. It reduces wastage of time for both banker as well as customer and
provides advanced security. In this system, only authentic persons can recover money or accessories from bank
locker. In this system the user’s name, fingerprint and mobile number are enrolled. If the fingerprint matches,
then four digit code will be sent to the authorized person’s mobile through GSM modem and the locker door
will be opened then, otherwise it will be in locked position and gives an alarm when any mismatch occurs. The
sensors will be active during night times to provide security against thefts.
Siam Pukkato completed the 11-week online Coursera course "Programming for Everybody (Python)" offered through the University of Michigan with distinction. The course certificate, signed by Charles Severance, a Clinical Associate Professor at the University of Michigan's School of Information, verifies Siam Pukkato's identity and participation in the course which was completed on September 03, 2015.
Stan Tschernenko is an experienced engineer with over 20 years of experience developing automation and control systems for industrial machinery, heavy equipment, offshore drilling, and commuter rail applications. Some of his accomplishments include developing early x-ray imaging technology, digital phase control for power systems, computer controlled pipe tensioning for offshore oil drilling, active heave compensation for offshore drilling rigs, and control systems for passenger locomotives. He is now applying his expertise in engineering and physics to improve ski safety and accelerate the learning process of skiing.
Theoretical and experimental spectroscopic analysis by FTIR in the effect of ...IJERA Editor
The development of new fibrous composites with specific properties has attracted a big interest in the
development of new technologies. One of the biggest problems in this area is the improvement of the
fiber/matrix interface to increase the mechanical properties in the final composite. In this work, surface chemical
modifications of the rice husk (by-product of the rice industry) were carried out to achieve a better compatibility
with diverse polymeric matrices. These modifications include the use of three different silanes: 3-
(trimethoxysilyl) propyl methacrylate (TMS), dichlorodimethylsilane (DDS) and trichlorovinylsilane (TVS). The
natural fibers and their changes after each treatment were studied experimentally by Fourier Transformed
Infrared Spectroscopy (FTIR). This experimental spectroscopic information was compared with a theoretical
analysis of molecular vibrations using the HyperChem Release 7.0 software as molecular modeling tool. The
result of this comparison confirmed the chemical modification. It was concluded that the chemical modification
was carried out and after an experimental spectroscopic analysis (FTIR) the molecular vibrations data were agree
with those calculated by theoretical analysis being verified in this way the chemical modification of the rice-husk
fiber surface.
Effective utilization of crusher dust in sustainable concreteIJERA Editor
This document summarizes research on using crusher dust as a partial replacement for fine aggregate in concrete. Several studies found that replacing fine aggregate with crusher dust up to 30-40% can increase the compressive strength of concrete, with the highest strength achieved at around 30-50% replacement. However, using more than 40% replacement generally decreases strength. The workability of concrete decreases with higher replacement levels due to crusher dust requiring more water. Overall, crusher dust is a viable partial substitute for natural sand in concrete that provides environmental and economic benefits.
Intellectual Bank Locker Security SystemIJERA Editor
In today's modern world, security plays an important role. Every person has precious accessories like gold,
documents or cash. The main goal of this project is to design and implement a bank locker security system
based on fingerprint and GSM technology. It reduces wastage of time for both banker as well as customer and
provides advanced security. In this system, only authentic persons can recover money or accessories from bank
locker. In this system the user’s name, fingerprint and mobile number are enrolled. If the fingerprint matches,
then four digit code will be sent to the authorized person’s mobile through GSM modem and the locker door
will be opened then, otherwise it will be in locked position and gives an alarm when any mismatch occurs. The
sensors will be active during night times to provide security against thefts.
Siam Pukkato completed the 11-week online Coursera course "Programming for Everybody (Python)" offered through the University of Michigan with distinction. The course certificate, signed by Charles Severance, a Clinical Associate Professor at the University of Michigan's School of Information, verifies Siam Pukkato's identity and participation in the course which was completed on September 03, 2015.
Stan Tschernenko is an experienced engineer with over 20 years of experience developing automation and control systems for industrial machinery, heavy equipment, offshore drilling, and commuter rail applications. Some of his accomplishments include developing early x-ray imaging technology, digital phase control for power systems, computer controlled pipe tensioning for offshore oil drilling, active heave compensation for offshore drilling rigs, and control systems for passenger locomotives. He is now applying his expertise in engineering and physics to improve ski safety and accelerate the learning process of skiing.
Theoretical and experimental spectroscopic analysis by FTIR in the effect of ...IJERA Editor
The development of new fibrous composites with specific properties has attracted a big interest in the
development of new technologies. One of the biggest problems in this area is the improvement of the
fiber/matrix interface to increase the mechanical properties in the final composite. In this work, surface chemical
modifications of the rice husk (by-product of the rice industry) were carried out to achieve a better compatibility
with diverse polymeric matrices. These modifications include the use of three different silanes: 3-
(trimethoxysilyl) propyl methacrylate (TMS), dichlorodimethylsilane (DDS) and trichlorovinylsilane (TVS). The
natural fibers and their changes after each treatment were studied experimentally by Fourier Transformed
Infrared Spectroscopy (FTIR). This experimental spectroscopic information was compared with a theoretical
analysis of molecular vibrations using the HyperChem Release 7.0 software as molecular modeling tool. The
result of this comparison confirmed the chemical modification. It was concluded that the chemical modification
was carried out and after an experimental spectroscopic analysis (FTIR) the molecular vibrations data were agree
with those calculated by theoretical analysis being verified in this way the chemical modification of the rice-husk
fiber surface.
Effective utilization of crusher dust in sustainable concreteIJERA Editor
This document summarizes research on using crusher dust as a partial replacement for fine aggregate in concrete. Several studies found that replacing fine aggregate with crusher dust up to 30-40% can increase the compressive strength of concrete, with the highest strength achieved at around 30-50% replacement. However, using more than 40% replacement generally decreases strength. The workability of concrete decreases with higher replacement levels due to crusher dust requiring more water. Overall, crusher dust is a viable partial substitute for natural sand in concrete that provides environmental and economic benefits.