Volume 4 Issue 6: 2016 | International Journal of Science, Engineering and Technology

[et_pb_section transparent_background=”off” allow_player_pause=”off” inner_shadow=”off” parallax=”off” parallax_method=”on” custom_padding=”35px|0px|35px|0px” padding_mobile=”off” make_fullwidth=”off” use_custom_width=”off” width_unit=”off” custom_width_px=”1080px” custom_width_percent=”80%” make_equal=”off” use_custom_gutter=”off” fullwidth=”off” specialty=”off” admin_label=”section” disabled=”off”][et_pb_row make_fullwidth=”off” use_custom_width=”off” width_unit=”off” custom_width_px=”1080px” custom_width_percent=”80%” use_custom_gutter=”off” gutter_width=”3″ custom_padding=”0px|0px|0px|0px” padding_mobile=”off” allow_player_pause=”off” parallax=”off” parallax_method=”on” make_equal=”off” column_padding_mobile=”on” parallax_1=”off” parallax_method_1=”on” parallax_2=”off” parallax_method_2=”on” parallax_3=”off” parallax_method_3=”on” parallax_4=”off” parallax_method_4=”on”][et_pb_column type=”4_4″ parallax=”off” parallax_method=”on” column_padding_mobile=”on”][et_pb_cta title=”Volume 4 Issue 6: 2016″ url_new_window=”off” use_background_color=”off” background_color=”#7ebec5″ background_layout=”light” text_orientation=”center” header_font=”Droid Sans|on|||” header_font_size=”30px” custom_margin=”||-10px|”][/et_pb_cta][et_pb_cta title=”1. Application of Agile Manufacturing in Small and Medium Scale Industries” button_url=”http://www.ijset.in/wp-content/uploads/2016/11/10.2348.11160805.pdf” url_new_window=”off” button_text=”Full Text” use_background_color=”off” background_color=”#7ebec5″ background_layout=”light” text_orientation=”justified” header_font=”Droid Sans|on|||” header_font_size=”16px” body_font=”Droid Sans||||” custom_button=”on” button_bg_color=”#0c71c3″ button_text_size=”14px” button_text_color=”#ffffff”]

Authors- Shashi Ranjan, Prakash Kumar

Affiliation- Research Scholar, Production Engg, B.I.T. Sindri, Dhanbad/Vinoba Bhave, India

Assistant Professor & Head, Deptt of Production Engg, B.I.T. Sindri, Dhanbad/India

DDI – 10.2348/ijset11160805

This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract- Agile manufacturing is the science of a business system that integrates management, technology and workforce, making the system flexible for a manufacturer to switch over the production of one component to another in a cost effective manner. It includes the entire business system starting from planning, finance, processes, design, tooling, machinery layout, materials and inventory inspection to pricing, marketing sales and service, technical support, delivery dates etc. It is a system characterized by its ability to allow rapid response to continuously changing customers’ requirements and market needs. It must be accomplished without compromising quality or increasing the cost. Any firm can’t be fat and agile at the same time. Before a firm can get agile, it has to get lean in all aspects such as lean product development, lean manufacturing, lean vender arrangements, lean staff etc.

Any organization that has not mastered ‘lean manufacturing’ should not expect too much success in pursuing agility. This paper consists of the application of both agile and lean manufacturing over the small and medium scale industries to increase the productivity as well as to increase the work life balance.

Keywords: Agile manufacturing, Flexible manufacturing, layout design, lean concept, quality control, responsiveness.

[/et_pb_cta][et_pb_cta title=”2. Radon as a Earthquake Precursor: A Review” button_url=”http://www.ijset.in/wp-content/uploads/2016/12/10.2348.11160815.pdf” url_new_window=”off” button_text=”Full Text” use_background_color=”off” background_color=”#7ebec5″ background_layout=”light” text_orientation=”justified” header_font=”Droid Sans|on|||” header_font_size=”16px” body_font=”Droid Sans||||” custom_button=”on” button_bg_color=”#0c71c3″ button_text_size=”14px” button_text_color=”#ffffff”]

Author- Ashish Tomer

Affiliation- Department of Physics, Gurukukla Kangri University Haridwar, India

DDI – 10.2348/ijset11160815

Abstract- The first measurements of radon as a seismic precursor are dated back to 1927, but the first recording, which is reported in many publications, and that encouraged research on seismic precursors, was detected before the Tashkent earthquake of 1966. This paper is a review of the radon measurements performed all over the world, trying to distinguish between discrete and continuous measurements, and between measurements in soil, water or air. The role that the “precursor radon” had in the forecast of strong earthquakes in the past has been examined. In this paper some of the radon anomalies cases are discussed.

[/et_pb_cta][et_pb_cta title=”3. Break-Even Analysis of Swine Farming in North- Eastern Tamil Nadu, India” button_url=”http://www.ijset.in/wp-content/uploads/2016/12/10.2348.11160823.pdf” url_new_window=”off” button_text=”Full Text” use_background_color=”off” background_color=”#7ebec5″ background_layout=”light” text_orientation=”justified” header_font=”Droid Sans|on|||” header_font_size=”16px” body_font=”Droid Sans||||” custom_button=”on” button_bg_color=”#0c71c3″ button_text_size=”14px” button_text_color=”#ffffff”]

Authors- ¹M. Boopathy Raja, ²K. N. Selvakumar, ³A. Serma Saravana Pandian, ⁴S. Meenakshi Sundaram, ⁵M. Murugan, ⁶R. Jayanthi

Affiliation- ¹Assistant Professor, Dept. of Livestock Production Management, Veterinary college and Research Institute, TANUVAS, Tirunelveli, Tamil Nadu, India– 627 358, E-Mail I’d: boobivet@gmail.com

²Dean, Veterinary college and Research Institute, Orathanad, TANUVAS, Tanjore, Tamil Nadu, India -600 007.
E-MailI’d: selvakumarkn@tanuvas.org.in

³Assistant professor, Department of animal Husbandry Economics, Madras Veterinary college, TANUVAS, Chennai,
Tamil Nadu, India -600 007. E-MailI’d: sermasaravanapandian.a@tanuvas.ac.in

⁴Professor, Department of livestock production management, Madras Veterinary College, TANUVAS, Chennai, Tamil Nadu, India – 600 007. E-Mail I’d:meenakshisundaram.s@tanuvas.ac.in

⁵Professor and Head, Dept. of Livestock Production Management, Veterinary college and Research Institute, TANUVAS, Tirunelveli – 627 358. Mail I’d: murugan.m.lpm@tanuvas.ac.in

⁶PhD Scholar, Department of Livestock Products Technology (Meat Science), Madras Veterinary College, TANUVAS, Chennai, Tamil Nadu, India – 600 007. E-Mail I’d: jayvet1212@gmail.com

DDI – 10.2348/ijset11160823

Abstract- The study was conducted in north-eastern agro climatic zone of Tamil Nadu State, India with the objective of identifying Break-even point of output in swine farming. The data regarding swine farming were collected from a random sample of 45 farmers selected from the study area. The samples were post stratified into small (1-8 sows), medium (9-16 sows) and large farms (above 16 sows) based on the number of sows maintained in the farms. Tabular analysis such as simple averages and percentages were done to derive cost components of swine farms in the study area. As a result, overall sample farmer’s fixed investment is Rs 5,10,760, fixed cost is Rs. 1,91,991 and variable cost is Rs.1,98,064. Study also found that the variable cost per kilogram of pork production in the study area is Rs. 34.91 and returns per kilogram of pork production is Rs. 96.46. Break-even Analysis was used to identify the Break-even point in swine farming in study area. A farm with an investment of Rs. 5,10,760.00 has to produce at least 3,119.37 Kg (30 animals) of live pork per annum to meet the break-even point. To operate the pig farm without any profit or loss the farmers has to keep at least 30 animals per annum.

Key words: Swine farming, Break-Even Point

[/et_pb_cta][et_pb_cta title=”4. iOS Mobile Application Development: A Modern Solution to Continuous Condition Monitoring and Reporting of NPC Pulangi – 4 Hydro Electric Plant” button_url=”http://www.ijset.in/wp-content/uploads/2016/12/10.2348.11160826.pdf” url_new_window=”off” button_text=”Full Text” use_background_color=”off” background_color=”#7ebec5″ background_layout=”light” text_orientation=”justified” header_font=”Droid Sans|on|||” header_font_size=”16px” body_font=”Droid Sans||||” custom_button=”on” button_bg_color=”#0c71c3″ button_text_size=”14px” button_text_color=”#ffffff”]

Author- Christine Marie J. Madrid, MIT

Affiliation- Assistant Instructor, College of Technology, University of Science and Technology of Southern Philippines (formerly: Mindanao University of Science and Technology), Cagayan de Oro City, Philippines, jariolnecmr@gmail.com

DDI – 10.2348/ijset11160826

Abstract- With the advancement of technology, online transactions and the use of mobile phones are in need for making lives more convenient. The rapidly advancing mobile communications technology and decrease in cost make possible to incorporate it to monitoring and information system in hydro power plants for increase efficiency and reliability. This mobile application tool is aimed to support the hydro power plant personnel’s day-to-day decision and analysis especially when not on site. This allows them to constantly monitor power plant’s performance and status and answers the problems encountered when using mobile monitoring system through SMS. Moreover, it provides easy access in transmitting and receiving confidential reports with graphical representations of the data. A computer system for uploading the data at the transmitter side, an online database and a native iOS mobile application at the receiver’s side and an 128 AES data encryption is used to fully implement the system. The design of the mobile application’s data error detection is also considered to ensure accuracy on the data presented. The performance evaluation of the mobile application shows that the mobile application tool is more reliable compared to SMS in monitoring the power plant performance and generation of daily reports. Furthermore, the third party evaluation conducted at the power plant premises yielded positive results.

Keywords: power plant monitoring, mobile applications for power plant, hydro power plant, electric plant monitoring, online database, XCode, NPC, National Power Corporation

[/et_pb_cta][et_pb_cta title=”5. Career Aspiration of Married Working Women in Itanagar, Arunachal Pradesh” button_url=”http://www.ijset.in/wp-content/uploads/2016/12/10.2348.11160833.pdf” url_new_window=”off” button_text=”Full Text” use_background_color=”off” background_color=”#7ebec5″ background_layout=”light” text_orientation=”justified” header_font=”Droid Sans|on|||” header_font_size=”16px” body_font=”Droid Sans||||” custom_button=”on” button_bg_color=”#0c71c3″ button_text_size=”14px” button_text_color=”#ffffff”]

Authors- Jhunu Mali

Affiliation- Department of Applied Science, Roorkee Engineering and Management Technology Institute, Email: malijhunu@gmail.com

DDI – 10.2348/ijset11160833

Abstract- The picture of Women is not the same as it was few years back. Drastic change has been seen. Today’s women are more empowered and focused towards their career. The biggest challenge for today’s women is to balance the demands of family and career. The study identifies the various aspects such as Career Aspiration, Career Development, Work Family Conflict, Child care, societal norms in context with Work Life Balance. This paper reveals the overview of the various challenges and issues faced by Married Working Women.

Keywords: Career Aspiration, Career Development, Work Family Conflict, societal norms.

[/et_pb_cta][et_pb_cta title=”6. Parameter Optimization of Used Oil Fired Small Sized Crucible Furnace for Melting Aluminium in Small Scale Local Foundry Workshops” button_url=”http://www.ijset.in/wp-content/uploads/2016/12/10.2348.11160843.pdf” url_new_window=”off” button_text=”Full Text” use_background_color=”off” background_color=”#7ebec5″ background_layout=”light” text_orientation=”justified” header_font=”Droid Sans|on|||” header_font_size=”16px” body_font=”Droid Sans||||” custom_button=”on” button_bg_color=”#0c71c3″ button_text_size=”14px” button_text_color=”#ffffff”]

Author- Kalayu Mekonen Abate

Affiliation- Lecturer, Department Of Mechanical Engineering, Adigrat University, Ethiopia, Email: kalayuu@yahoo.com

DDI – 10.2348/ijset11160843

© Kalayu Mekonen Abate et al.; licensee International Journal of Science, Engineering and Technology

Abstract- Energy is one of the key important input factor in the foundry industries require new combustion concept for effective utilization of the fuel with controlled emission. Foundry technology mainly requires furnace for melting the metal to be casted. Melting energy and pollution are the most important factor while using furnace for melting. The main problem of the furnace was observed in consistent Efficiency. Hence, the existing furnace needs to optimize for effective utilization of fuel, melting time, environmental pollution and reduction in safety hazards while melting. Controlling combination of seven selected variable parameters was the method which uses to optimize performance of the local existing furnace which results complete combustion. While optimizing the furnace it need to survey the existing furnace, identify the effect of each parameter then optimize it based on design of experiment (DOE) result and regression analysis using genetic algorithm. Based on the experimental result and Genetic Algorithm optimization tool, improvements using the selected seven parameters has been observed at (3100rpm of air blow rate, 3.032ml/s of fuel drop rate, 35.2000 degree of inclination angle of fuel runner, 35.100 degree of inclination angle of air runner, 60.090mm clearance between wall of the furnace and crucible, 8.500mm of position of fuel and air mixture beyond80.050mm of diameter of fuel and runner mixture. The study shows particularly fuel consumption for 30kg, 35kg and 40 kg of aluminium requires 6.830 litters, 7.014liters and7.120 litters respectively. According to this study fuel can be saved up to 54% and hence, effective combustion will be occurred and pollution will be reduced while melting. Moreover, as the amount of aluminium scrap to be melted increases, efficiency of the furnace increases significantly.

Key words: Energy, Furnace, foundry, Efficiency, DOE, ANOVA, Genetic algorithm

[/et_pb_cta][et_pb_cta title=”7. Implementation of Military Camp Security System Using GSM, Microcontroller and PIR Sensor” button_url=”http://www.ijset.in/wp-content/uploads/2017/01/10.2348.11160859.pdf” url_new_window=”off” button_text=”Full Text” use_background_color=”off” background_color=”#7ebec5″ background_layout=”light” text_orientation=”justified” header_font=”Droid Sans|on|||” header_font_size=”16px” body_font=”Droid Sans||||” custom_button=”on” button_bg_color=”#0c71c3″ button_text_size=”14px” button_text_color=”#ffffff”]

Authors- ¹Shankar Bharti, ²Prof. Anil Khandelwal, ³Prof. Amit Shrivastava

Affiliation- ¹M.Tech, Scholar, VNS Bhopal, Madhya Pradesh, INDIA, Email: shanker.bharti@gmail.com

^2,3Professor, Department of Electronics, VNS Group, Bhopal, Madhya Pradesh, INDIA

DDI – 10.2348/ijset11160859

Abstract- Security is one of the main concerns of the present day. Security not only from the rising crime but also from the day to day accidents. The present world of technological advancement proper measure should be taken to maintain the security and the comfort of Military camp. By using proper security system billion of rupees spend on department like military camp. can be brought in control.

This thesis is based on the GSM base and microcontroller. Microcontroller control or fetch the information from the GSM network. In this controller we use our mobile sim and after collection of information make the noise or ring by the speaker. PIR sensors sense the unknown human body in the military camp and information collect and give to microcontroller. When the human absent then no calls and when the human enter then start calls. By the purpose of security of the military camp, this phenomenon is done. This security is use in military camp because for war for safe India uses arms, tanks, and many things.

Keywords: PIR sensor, GSM (global system for mobile communication), Micro controller, SIM (short message service), Security.

[/et_pb_cta][et_pb_cta title=”8. Experimental Investigation of Machining Parameters in Turning Operation Using Taguchi Analysis” button_url=”http://www.ijset.in/wp-content/uploads/2017/01/10.2348.11160863.pdf” url_new_window=”off” button_text=”Full Text” use_background_color=”off” background_color=”#7ebec5″ background_layout=”light” text_orientation=”justified” header_font=”Droid Sans|on|||” header_font_size=”16px” body_font=”Droid Sans||||” custom_button=”on” button_bg_color=”#0c71c3″ button_text_size=”14px” button_text_color=”#ffffff”]

Authors- ¹Anshul Sen, ²Dr. Shailesh Dewangan

Affiliation- Department of Mechanical Engineering, Chouksey Engineering College Bilaspur, Email ID: ¹senanshul02@gmail.com, ²shaileshdewangan123@gmail.com

DDI – 10.2348/ijset11160863

Abstract- The objective was to seek out the optimum machining parameters thus on minimize the input of the resources and to maximize the output of the process. The present work involved an experimental study of turning on alloy steel of AISI 4320 grade. The aim of this thesis is to review the effect of speed, feed, and depth of cut on material removal rate, metal surface and tool wear in machining AISI 4320 alloy steel using tungsten carbide tipped cutter. Experimental were conducted on CNC machine and also the influence of cutting parameter was studied via analysis of variance (ANOVA) base on acquainted approach, supported the most effects plots get through Taguchi Analysis, a total of eighteen tests were administrated. Optimum level for MRR, Surface roughness and depth of cut were chosen from the 3 levels of cutting parameters thought of the selection of every parameter is place at 3 completely different levels, namely low, medium and high. Mathematical models were deduce by software system design specialist so as to precise the influence degree of the most cutting variables like cutting speed, feed rate and depth of cut on MRR, SR and Flank wear. The results indicate that the cutting speed is that the dominant issue affecting all 3 investigation parameters.

Keywords: ANOVA, Optimization, MRR, SR, FW

[/et_pb_cta][et_pb_cta title=”9. Refactoring of Sequence Diagram to Generate State Chart Diagram using OCL Constraints” button_url=”http://www.ijset.in/wp-content/uploads/2017/03/10.2348.11160870.pdf” url_new_window=”off” button_text=”Full Text” use_background_color=”off” background_color=”#7ebec5″ background_layout=”light” text_orientation=”justified” header_font=”Droid Sans|on|||” header_font_size=”16px” body_font=”Droid Sans||||” custom_button=”on” button_bg_color=”#0c71c3″ button_text_size=”14px” button_text_color=”#ffffff”]

Authors- ¹Noorpratap Singh Bhullar, ²Dr. Amit Verma, ³Bharti Chhabra

Affiliation- ¹M.Tech. Research Scholar, Computer Science & Engineering, Chandigarh Engineering College, Landran, Punjab, India

²Head of Department, Computer Science & Engineering, Chandigarh Engineering College, Landran, Punjab, India

³Assistant Professor, Computer Science & Engineering, Chandigarh Engineering College, Landran, Punjab, India

DDI – 10.2348/ijset11160870

Abstract- For each software model, there is some diagrammatic structure to represent that model which can be described with a particular modeling language. Similarly, UML is also a well adapted concept in object oriented paradigm which is comprised of structural and behavioral diagrams. In this paper, we are concentrating on UML behavior based sequence diagrams and state chart diagram. The main objective of the research work is to refactor the XMI sequence diagram to generate source code and further conversion into state chart diagram so that a beginner level developer can understand the step by step work flow and other aspects of software model. For this refracting, OCL constraint is considered with XMI data to build a framework for code generation. To refactor the XMI data into java source code, OCL helps to convey required constraints & additional information to improve the model precision. For this refactoring of the XMI file with OCL constraints, Support Vector Machine (SVM) algorithm is used. Finally state chart diagrams are generated from the code. SVM is used to optimize the overall refatoring time. The proposed concept is tested for the library management system as an application with the evaluation of total time and translation time for code to state chart diagrams.

Keywords: Unified Modelling Language, Sequence Diagram, State Chart Diagram, Object Constraint Language.

[/et_pb_cta][/et_pb_column][/et_pb_row][/et_pb_section]