Papers by Neeraj Kushwaha
The requirement of a multistorey building is increasing day by day because of the rapid increase ... more The requirement of a multistorey building is increasing day by day because of the rapid increase in population, urbanization, land cost and decrease in land availability, but high-rise building is highly affected by lateral loads. These lateral forces keep on increasing as we increase the height of the building, so it becomes important to improve the lateral resisting capacity of multi-storey buildings. To counter these lateral loads, the Bracing system can be one of the best options. The bracing system is widely used to regulate displacement and storey drift in an effective manner. Mechanism of the bracing system is similar to truss, and it controls lateral deflection. In this study, four different types of bracing system are used for zone 3 and zone 4. Cross bracing and V bracing are widely used in the bracing system and a modified mixed diagonal type bracing is used which a combination of forward diagonal bracing and backward diagonal is bracing. Also, Mega cross bracing is used. The models are analyzed by the equivalent static method and response spectrum method. Results are compared by using ETAB 2017 software package in this study structural performance are evaluated and compared in different aspects such as storey drift, storey displacement base shear, overturning moment, storey acceleration, fundamental time period of structure in different seismic zone the use of Mega Cross-Bracing mixed diagonal bracing and shows a better performance in various seismic factors, on comparison with other bracing systems. The results obtained from different analyses suggest which type of bracing is best suitable for different seismic zones.
International Journal of Advance Engineering and Research Development, Mar 31, 2017
The resistance to the lateral loads from wind or from an earthquake is the reason for the evoluti... more The resistance to the lateral loads from wind or from an earthquake is the reason for the evolution of various structural systems. Bracing system is one such structural system which forms an integral part of the frame. Such a structure has to be analysed before arriving at the best type or effective arrangement of bracing. This project is about the efficiency of using different types of bracings and with different steel profiles for bracing members for multi-storey steel frames. ETABS software is used to obtain the design of frames and bracing systems with appropriate steel section selection for beams, columns and bracing members from the standard set of steel sections. A three dimensional structure is taken with 5 horizontal bays of width 5 meters, and 30 stories is taken with storey height of 3.5m. The beams and columns are designed to withstand dead and live load only. Wind load and Earthquake loads are taken by bracings. The bracings are provided only on the peripheral columns. Maximum of 4 bracings are used in a storey for economic purposes. In this study, an attempt has been made to study the effects of various types of bracing systems with respect to displacement.
Theaim of paper is to presents a technique based on Particle Swarm Optimization (PSO) to identify... more Theaim of paper is to presents a technique based on Particle Swarm Optimization (PSO) to identify the switching operation plan for feeder reconfiguration and optimum size value of DG simultaneously. The key purpose is to diminish the real and reactive power losses and improve the bus voltage profile in the system while satisfying all the distribution constraints. A method based on PSO algorithm to find out the minimum formation is presented and their impact on the network real power losses and voltage profiles are investigated. The results are obtained through MATLAB coding.
Isocc 2007 Conference, Oct 1, 2007
Isocc 2007 Conference, Oct 1, 2007
International Conference on Computing, Communication & Automation, 2015
The majority of real time applications require hasty data transmission over a TCP channel in the ... more The majority of real time applications require hasty data transmission over a TCP channel in the network. It is a necessity of fair distribution of resources to enhance the performance of the network. Additive increase and multiplicative decrease (AIMD) is one of the finest congestion control technique for TCP networks, achieves a responsibly good fairness and throughput, which reduces packet loss rate. This paper proposes an AIMD based congestion control technique to deal with the fairness and attain the better and fast bandwidth utilization. We allow our mechanism to increase the congestion window size exponentially by a multiplicative factor at slow start and drop off the congestion window with an additional increase for every packet loss. Our approach uses the concept of pre-determination of congestion window size for each multiplicative increase with respect to the available bandwidth of the channel. We called our approach as Fast-AIMD (FAIMD). The simulation results demonstrate that our mechanism can accomplish a faster growth in congestion window of each flow as compared to the existing mechanism for TCP networks.
Second IEEE Workshop on Software Technologies for Future Embedded and Ubiquitous Systems, 2004. Proceedings.
In this paper we propose an intelligent agent model for smart home environments. In ubiquitous co... more In this paper we propose an intelligent agent model for smart home environments. In ubiquitous computing environments like smart home, agents have to learn user's preferences in order to assist them. These preferences are represented by user profiles. Our proposed ...
Proceedings of 7th International Workshop on Enterprise networking and Computing in Healthcare Industry, 2005. HEALTHCOM 2005.
ABSTRACT Intelligent agents are a new paradigm for developing software applications. Currently, a... more ABSTRACT Intelligent agents are a new paradigm for developing software applications. Currently, agents are the focus of intense interest on the part of many subfields of computer science and artificial intelligence. This paper is focused on the current research work on pervasive health care project. We are developing a health care system that monitors the healthy person in the home and promote health awareness. One of the critical disease monitoring is discussed in this paper. Heart attack is the leading cause of death in every part of the world. More than 60% of heart attack victims experience symptoms before the heart attack occurs. These early symptoms are the key concept in our monitoring system that would alert the patient about his/her medical condition. Our system uses Bayesian network model for inference and Microsoft Agent as human computer interface. The system also illustrates the importance of sensor technology in the home that can assist the patient as per their context environment.
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Papers by Neeraj Kushwaha