In this modern era, great developments on Radio Frequency Identification Techniques has evolved. Its applications are effectively applied to various diverse areas as transportation, agriculture, hospital / health care and other industries. RFID technique facilitates use automatic wireless identification through electronic passive and active tags with suitable readers. This work illustrates asystem which incorporates an application of RFID and wireless database record entries. The proposed system not only eliminates the time consumed in manual attendance but also maintains the record of entries which can be used for statistical purposes like allocation of appropriate attendance score and further administrative tasks.

There is tremendous growth in automobile and automation in last few years so to increase the productivity and performance of automations. we have to make unique research and development works. Its implementation in one organization can lead to another one elsewhere .the ability to modify NRV and hose fitting assembly to increase the work flow is yet another effective point.in this project we are making a design modification in the assembly design of NRV and hose fitting this is one of the project from NAYAN ELECTRONICS who included us in their company project and sponsored our ideas. By using the various techniques and data base along with the old methods there are certain issues like flexibility and current systems being in capable properly mapping the relationship. It could result in the origin of multiple query statements. There by decreasing the queries and stop wasting industrial material adding our new modified die design. Hence the focus of the system is to facilitate use us to easily transfers the dies. In this project we are properly mapping of the system requirement and working on it.

The study was motivated by the lots of programmes put in place and the colossal sum of money spent by government and other service providers to meet safe water requirements of the rural people, yet, not much is being achieved in that direction. The objectives of this study, therefore, were to identify the institutional framework for rural water management and the contributions of rural water end users in managing their water supply points. The study utilized both primary and secondary data sources. Using a purposive sampling technique, fifty (50) rural communities were identified and administered with structured questionnaire which were complemented with personal interviews, focus group discussion, field observations and measurements. The study findings revealed that institutional arrangements for operation and maintenance of water issues have been top-bottom management strategy as against the supply driven norm where end users determine the outcome decision on water issues. The study recommends a framework for the improvement of public participation in rural water management and measures needed to operate and maintain the available water supply points efficiently in the state in line with the determination of the present and subsequent governments’ drive to reduce poverty and enhance rural development. Above all, the study indicates that public participation in rural water resources management will not be successful without empowering the communities financially and educationally in order to become willing and informed participants in sustainable community development drive.

In order to monitor the ongoing seismicity in different seismically active regions of India, 300 state of the art digital strong ground motion accelerographs have been installed. To estimate site effects HVSR technique is used for 27 strong motion stations of Himachal Pradesh. In the present study, The Fourier response spectra are calculated for each component (North-South, East-West and Vertical). The horizontal to vertical spectral ratio curve (H/V ratio) was estimated using Nakamura formula. The data is processed by using “SeismoSignal” 2016 software. Along with H/V ratio the parameters can be estimated like Maximum Acceleration, Maximum Velocity and Maximum displacement. The Software gives the results based on PGA, PGV, PGD and results of ground motion parameters is obtained by considering maximum value and then by using a correction window of 5.12 seconds and then plotting it on elastic/inelastic curves by considering 5% damping. Maximum H/V spectra value is obtained for each strong motion stations. The Predominant frequency and Amplification factor for each strong motion station is obtained from H/V curve.

Due to the increasing rate of water pollution there is an increasing need for its awareness and cleanness. Considering this issue our project focus on cleaning of the water bodies on shore, our project is a modification of the sea-bin project according to our Indian society and needs. We are using two buckets and one storage tank and pump will be provided at ground level, the suction will be provide at ground level due to which the water in lakes or rivers will be sucked and with water all waste will be collected in filter bag(net). The water will be pumped to higher bar pressure and it will purify for use of our people for nominal work like cleaning of cars, cleaning of house etc. while designing of whole system one disadvantage of system made us to change the design that to add submergible pressure sensor to sense the level of the water and if the level of the water is below the reference point then it will shut off the pump. The water which was stored in the tank after pumping will go into the reverse osmosis process and will be purify to better level which human can use.