Doctoral Student Handbook Doctor Of Philosophy In Systems: Fill & Download for Free

Do mention the course which you want to pursue.The courses available are:Name of the Course Doctor of Philosophy in Defence StudiesDuration 3 yearsSeats Subject to availabilityFees Rs. 15677/- [2015-16]Eligibility Enrolment to Ph.D. in the Faculties of Arts, Science, Languages, Education, Design & Fine Arts,Pharmaceutical Sciences and Business Management & Commerce is based on Entrance Test except for certain categories approved by the Syndicate.Remarks Seats are subject to availabilityDuration is 3-5 yearsName of the Course Executive Certificate Course in Disaster Management and SecurityDuration 1 yearsSeats 20Fees 10000 [2009-2010]Eligibility All government, non-government agency executives, armed forces and para-military personnel including elected representatives and media persons holding graduation degree with two yearwork experience sponsored by theirparent organizationRemarks Twice a yearDuration is 3 monthsName of the Course Master of Philosophy (Defence Studies)Duration 1 years (Semester system)Seats 31Fees Rs. 15667/- [2015-16]Eligibility Defence Officers from Army Training Command, Shimla and Western Command, Chandi Mandir holding the rank of Major and above. 55% marks. The candidates will have to appear in the Entrance Test.Eligibility for Enrolment1. An officer must fulfill the following conditions to be able to enroll for M.Phil. in Defence Studies.(a) Should be of the rank of Major or above so as to have the requisite experience in defencemanagement.(b) Should have postgraduate degree in any discipline.(c) Should have obtained a minimum of 50% marks at postgraduate level.(d) Should be carrying out research related duties or involved in imparting instructions in militaryrelated subjects or Defence Studies to student officers. Research related assignment mayinclude :-(i) Officers formalizing concepts and doctrines(ii) Officers involved in studies related to strategic issues(iii) Officers posted to various faculties of studies dealing with forName of the Course Masters of Arts (Defence and National Security Studies)Duration 2 years (Semester system)Seats 39Fees Rs. 6587/- [2015-16]Eligibility As prescribed in Section 7.1 of Rules for Admissions in Handbook of InformationName of the Course Post Graduate Diploma course in Homeland SecurityDuration 1 years (Semester system)Seats 25Fees Rs. 19087/- [2015-16]Eligibility (a) Bachelor's degree in any discipline of the Panjab University with at least 50% marks(b) An examination of another university recognized by the Syndicate as equivalent to (a) above.Remarks 25 (15 Serving Personnel recommended by their respective Departments + 10 Open)Name of the Course Post Graduate Diploma in Disaster Management & SecurityDuration 1 years (Semester system)Seats 34Fees Rs. 27907/- [2015-16]Eligibility Graduation in any discipline with 50% marks

Most people know very little about how their body functions let alone how viruses invade cells. Unless people decide to do their own research into a matter, then they are at the mercy of the views and opinions of others. The mystery of disease is not the same as the mystery of the unknown. Dis-ease—the fear of death—permeates the minds of people more than most are willing to admit.Reading the report about the 9-year-old, naturally, one’s heart goes out to the parents and family members. However, as a realist, every day around 1 million people die. These deaths are not from SARS-CoV-2 (COVID-19). They are from many other diseases that result from organ failure that have nothing to do with viruses, even if a person when tested afterwards might prove to have been carrying antibodies to a coronavirus or a rhinovirus, which are causes of the common cold.From the information that I have researched, few people die from viral infections of the lungs. Most die from bacteria in the lower tracts of the lungs that are able to attack a weakened immune system as a result of a virus. Pneumococci are responsible for a significant majority of deaths attributed to influenza and coronaviruses, with current reports of evidence suggesting 11,895 SARS-CoV-2 deaths rather than falsely reported 121.374.According to the CDC, 131,332 Americans have died from pneumonia and 121,374 from COVID-19 as of July 11th, 2020.[1]Had the CDC used its industry standard, Medical Examiners’ and Coroners’ Handbook on Death Registration and Fetal Death Reporting Revision 2003, as it has for all other causes of death for the last 17 years, the COVID-19 fatality count would be approximately 90.2% lower than it currently is.[2]Meningococcal disease is a cause of many deaths in children. Often misdiagnosed, meningococcal is a poorly understood disease, unless identified early, meningococcus moves fast and causes death in a very short time—often within hours, if not in a few days. When reading about Kimora’s fever and her death within a few days, my first thoughts were this is a classic case of meningoccocal disease.The CDC have issued guidelines to hospitals to record every death as being caused by SARS-CoV-2, if there is any reason to assume that this might be the case. Because of this, and because of the fact that when genuine investigations into deaths caused by SARS-CoV-2 have taken place, in nearly every case co-morbidities were noted, there is a massive question mark over the lethality of SARS-CoV-2.For example, investigations in Italy, revealed that only 4% of the reported deaths were SARS-CoV-2 related. The rest were from other underlying morbidities but reported to have been SARS-CoV-2; the average age of the decedents being 81 years of age. The 4% who died from SARS-CoV-2, did not necessarily die from the virus, but because they contracted the virus, their immune system weakened and they probably died from pneumonia and being intubated. The same is what occurs when people die from influenza. The immune system is weakened and people die from pneumonia.There is no reason not to open schools. There is no reason for people to wear masks, unless they themselves are ill, then they need P95 masks to stop them spreading what is in their mouth. Better still is that they are given HCQ, which has been a known proven potent inhibitor of SARS-CoV infection and spread, since 2005.[3] Fauci knows this, as do many doctors. Unfortunately, those doctors who have been treating patients with HCQ, along with zinc and, if necessary, arithromycin, are being banned from youtube, facebook and twitter, as well as being eschewed by MSM.The evidence suggests that the SARS-CoV-2 scare is a propaganda attack to bring people into submission through fear and their ignorance by using the most trusted vehicle to deliver the message. WHO is headed up by a communist who is not a medical doctor, but a doctor of philosophy sympathetic and beholden to the Communist Chinese Party (CCP). A little research into who funds the WHO and the various connections between its director Tadros and his US connections and the promoters of vaccinations, not to mention event 201 and Wuhan funding, the plot begins to thicken. Sometimes, connecting the dots can be tenuous at best, but when they keep repeating between the same individuals, the connections become impossible to deny.Everyone who began looking into this virus, when told that it was deadly but only 6 people died after 3711 people were locked up on a ship for 14 days, alarm bells began ringing. For the informed, more and more, this is looking like a massive psychological operation that has been played out upon the globe by those who have evil intent for vaccinating 7 billion people of the 7.5 billion alive today.Why only 7 billion and not the other 500 million? Check out the Ten goals written on Georgia Guidestones. The first goal is “Maintain humanity under 500,000,000 in perpetual balance with nature.”The Diamond Princess in February had 3711 passengers cooped up on board for 14 days. There were 1800 passengers with chronic morbidities, for which they required additional medication. After the quarantine period, 700 tested positive for having had SARS-CoV-2. Many of these were saying that they merely suffered some minor cold symptoms. Of the 6 people who died, 4 were in their 80s, One was 75 and the other unspecified. Yet a microbiologist, a virologist and an epidemiologist were predicting a virtual genocide, as they claimed that the passengers were not being placed in quarantine, but were being placed in an incubator for the disease.There is a disease, but not from a biological agent, rather dis-ease is spreading from agents of propaganda. Sadly, teachers are more concerned about their incomes, rather than teaching students, and are making the most of people’s fears for their own benefit.The Decisions You Make If Are Better If You Do Not Derogate From TruthFootnotes[1] If COVID Fatalities Were 90.2% Lower, How Would You Feel About Schools Reopening? • Children's Health Defense[2] If COVID Fatalities Were 90.2% Lower, How Would You Feel About Schools Reopening? • Children's Health Defense[3] Chloroquine is a potent inhibitor of SARS coronavirus infection and spread - PubMed

Q. What is the name of the Japanese student who is considered the man behind the Japanese industrial revolution?"Genichi Taguchi" on Revolvy.comGenichi Taguchi (田口 玄一 Taguchi Gen'ichi) (January 1, 1924 – June 2, 2012) was an engineer and statistician.[1]From the 1950s onwards, Taguchi developed a methodology for applying statistics to improve the quality of manufactured goods. Taguchi methods have been controversial among some conventional Western statisticians,[2] [3]but others have accepted many of the concepts introduced by him as valid extensions to the body of knowledge.BiographyTaguchi was born and raised in the textile town of Tokamachi, in Niigata prefecture. He initially studied textile engineering at Kiryu Technical College with the intention of entering the family kimono business.[4]However, with the escalation of World War II in 1942, he was drafted into the Astronomical Department of the Navigation Institute of the Imperial Japanese Navy.After the war, in 1948 he joined the Ministry of Public Health and Welfare, where he came under the influence of eminent statistician Matosaburo Masuyama, who kindled his interest in the design of experiments. He also worked at the Institute of Statistical Mathematics during this time,[4] and supported experimental work on the production of penicillin at Morinaga Pharmaceuticals, a Morinaga Seika company.In 1950, he joined the Electrical Communications Laboratory (ECL) of the Nippon Telegraph and Telephone Corporation just as statistical quality control was beginning to become popular in Japan,[4] under the influence of W. Edwards Deming and the Japanese Union of Scientists and Engineers. ECL was engaged in a rivalry with Bell Labs to develop cross bar and telephone switching systems, and Taguchi spent his twelve years there in developing methods for enhancing quality and reliability. Even at this point, he was beginning to consult widely in Japanese industry, with Toyota being an early adopter of his ideas.During the 1950s, he collaborated widely and in 1954-1955 was visiting professor at the Indian Statistical Institute, where he worked with C. R. Rao, Ronald Fisher and Walter A. Shewhart.[5] While working at the SQC Unit of ISI, he was introduced to the orthogonal arrays invented by C. R. Rao - a topic which was to be instrumental in enabling him to develop the foundation blocks of what is now known as Taguchi methods.On completing his doctorate at Kyushu University in 1962,[6] [7] he left ECL, though he maintained a consulting relationship. In the same year he visited Princeton University under the sponsorship of John Tukey, who arranged a spell at Bell Labs, his old ECL rivals. In 1964 he became professor of engineering at Aoyama Gakuin University, Tokyo.[5]In 1966 he began a collaboration with Yuin Wu, who later emigrated to the U.S. and, in 1980, invited Taguchi to lecture. During his visit there, Taguchi himself financed a return to Bell Labs, where his initial teaching had made little enduring impact. This second visit began a collaboration with Madhav Phadke and a growing enthusiasm for his methodology in Bell Labs and elsewhere, including Ford Motor Company, Boeing, Xerox and ITT.The list of Doctorate of Kyushu University has no name Genichi Taguchi. There might be eleven names of Taguchi, however we could find the name Genichi.Since 1982, Genichi Taguchi has been an advisor to the Japanese Standards Institute and executive director of the American Supplier Institute, an international consulting organisation.[8]His concepts pertaining to experimental design, the loss function, robust design, and the reduction of variation have influenced fields beyond product design and manufacturing, such as sales process engineering.[9]ContributionsTaguchi has made a very influential contribution to industrial statistics. Key elements of his quality philosophy include the following:Taguchi loss function, used to measure financial loss to society resulting from poor quality;The philosophy of off-line quality control, designing products and processes so that they are insensitive ("robust") to parameters outside the design engineer's control.Innovations in the statistical design of experiments, notably the use of an outer array for factors that are uncontrollable in real life, but are systematically varied in the experiment.Honours1986 - Willard F. Rockwell Medal of the International Technology Institute1989 - Indigo Ribbon from the Emperor of Japan1990 - Honoured as a Quality Guru by the British Department of Trade and Industry1995 - Honorary member of the Japanese Society of Quality Control1997 - Automotive Hall of Fame Inductee1998 - Honorary member of the American Society for Quality[4]1998 - Honorary member of the American Society of Mechanical Engineers1999 - Honorary president of the Robust Quality Engineering Society(Japan)BookGenichi Taguchi (August 1992). Taguchi on Robust Technology Development: Bringing Quality Engineering Upstream. ASME Press. ISBN 978-0791800287.Genichi Taguchi; Subir Chowdhury; Shin Taguchi (October 1999). Robust Engineering: Learn How to Boost Quality while Reducing Costs & Time to Market. McGraw-Hill Professional. ISBN 978-0071347822.Genichi Taguchi; Subir Chowdhury; Yuin Wu (August 2000). The Mahalanobis-Taguchi System. McGraw Hill Professional. ISBN 978-0071362634.Genichi Taguchi; Rajesh Jugulum (2002). The Mahalanobis-Taguchi Strategy : A Pattern Technology System. John Wiley & Sons. ISBN 978-0471023333.Genichi Taguchi; Rajesh Jugulum; Shin Taguchi (2004). Computer-Based Robust Engineering: Essential For DFSS. Amer Society for Quality. ISBN 978-0873896221.Genichi Taguchi; Subir Chowdhury; Yuin Wu (2005). Taguchi's Quality Engineering Handbook. John Wiley. ISBN 978-0471413349.References"ASI Mourns the Loss of Dr. Genichi Taguchi". Home - ASI Consulting Group | Quality Performance. 2012-03-28. Archived from the original on 2012-10-19. Retrieved 2012-06-26.Wadsworth, Harrison M. (1997). Handbook of statistical methods for engineers and scientists (2nd ed.). New York: McGraw-Hill Professional.Smith, Gerald F. (1998). Quality problem solving. American Society for Quality. pp. 250?251."Genichi Taguchi". American Society for Quality.Jayaswal, Bijay K.; Peter C. Patton (2006). Design for Trustworthy Software: Tools, Techniques, and Methodology of Developing Robust Software. Prentice Hall. p. 44.Taguchi, Genichi (June 1995). "Quality engineering (Taguchi methods) for the development of electronic circuit technology". IEEE Transactions on Reliability. IEEE Reliability Society. 44 (2): 225?229. doi:10.1109/24.387375. ISSN 0018-9529.Gen'ichi TAGUCHI (March 1962). Studies on mathematical statistics for quality control. Doctoral thesis. Kushu University."About ASI". American Supplier Institute. Archived from the original on 2009-04-02. Retrieved 2009-04-22.Selden, Paul H. (1997). Sales Process Engineering: A Personal Workshop. Milwaukee, WI: ASQ Quality Press. pp. 156?158, 169, 237.External linksPhotograph of Dr. Genichi TaguchiASQ: About: Genichi Taguchi | ASQGENICHI TAGUCHIInnovative Methods and TechniquesThe executive director of the American Supplier Institute, Genichi Taguchi is well-known for developing a methodology to improve quality and reduce costs, known in the United States as the "Taguchi Methods." He also developed the quality loss function."Taguchi Methods" is the American Supplier Institute’s trademarked term for the quality engineering methodology developed by Taguchi, who was named an Honorary member in 1997. In this engineering approach to quality control, Taguchi calls for off-line quality control, on-line quality control, and a system of experimental design to improve quality and reduce costs.Kimonos, a War, and StatisticsTaguchi was born in 1924 in Takamachi, Japan, a city famous for the kimono industry, so it was only natural for him to study textile engineering as he was expected to assume responsibility of the family kimono business. But in 1942, Taguchi's draft notice came and with it came an interest in statistics. Under the guidance of Prof. Masuyama, at the time regarded by many as the best statistician, Taguchi's statistics skills were nurtured and honed.Following the war, Taguchi worked for the Institute of Statistical Mathematics from 1948 to 1950 and gained recognition for his contributions to industrial experiments dealing with the production of penicillin. He was hired by the Electrical Communication Laboratory (ECL) in 1950, even as statistical quality control was gaining popularity in leading Japanese companies.During this time, both ECL and Bell Laboratories were developing cross bar and telephone switching systems. Working on the project for ECL provided Taguchi with plenty of opportunity for experimentation and data analysis. Six years later, the ECL systems project was completed, around the same time Bell Labs completed its version. Nippon AT&T awarded a contract to ECL, however, for its superior production.Taguchi as AuthorDuring this period, Taguchi also found time to write Experimental Design and Life Test Analysis and Design of Experiments for Engineers. In 1960, the latter book helped earn him Japan's Deming Prize for his contributions in quality engineering.Two years later, after he had earned his doctorate in science, Taguchi wrote a second edition of Design of Experiments that introduced industrial research on the signal-to-noise ratio. He left ECL, but maintained his relationship in a consulting capacity.After joining the associate research staff of the Japanese Standards Association, Taguchi founded the Quality Research Group. Since 1963, the group has met monthly to discuss industry applications.Aoyama Gakuin University in Japan invited Taguchi to teach in 1965 and he stayed on for 17 years and helped develop the university's engineering department.By the early 1980s, Taguchi was making a name for himself in the United States. A supplier had introduced Taguchi's methods to Ford Motor Co. and he was invited to provide seminars to Ford executives in 1982. By 1983, he was executive director of the Ford Supplier Institute, Inc., which later changed its name to the American Supplier Institute.Taguchi received the Indigo Ribbon from the Emperor of Japan in 1986 for his outstanding contributions to Japanese economics and industry. That year he also received the International Technology Institute's Willard F. Rockwell Medal for combining engineering and statistical methods to achieve rapid improvements in cost and quality by optimizing product design and manufacturing processes. In 1995, the Japanese Society of Quality Control made him an honorary member.The Signal Cuts Through the NoiseGenichi Taguchi and Taguchi Methods - Practical, Rapid QualityAfter WWII Japanese manufacturers were struggling to survive with very limited resources. If it were not for the advancements of Taguchi the country might not have stayed afloat let alone flourish as it has. Taguchi revolutionized the manufacturing process in Japan through cost savings. He understood, like many other engineers, that all manufacturing processes are affected by outside influences, noise. However, Taguchi realized methods of identifying those noise sources which have the greatest effects on product variability. His ideas have been adopted by successful manufacturers around the globe because of their results in creating superior production processes at much lower costs.Here are some of the major contributions that Taguchi has made to the quality improvement world:The Loss Function - Taguchi devised an equation to quantify the decline of a customer's perceived value of a product as its quality declines. Essentially, it tells managers how much revenue they are losing because of variability in their production process. It is a powerful tool for projecting the benefits of a quality improvement program. Taguchi was the first person to equate quality with cost.Orthogonal Arrays and Linear Graphs - When evaluating a production process analysis will undoubtedly identify outside factors or noise which cause deviations from the mean. Isolating these factors to determine their individual effects can be a very costly and time consuming process. Taguchi devised a way to use orthogonal arrays to isolate these noise factors from all others in a cost effective manner.Robustness - Some noise factors can be identified, isolated and even eliminated but others cannot. For instance it is too difficult to predict and prepare for any possible weather condition. Taguchi therefore referred to the ability of a process or product to work as intended regardless of uncontrollable outside influences as robustness. He was pivotal in many companies' development of products and processes which perform uniformly regardless of uncontrollable forces; an obviously beneficial service.BiographyBorn on the first day of 1924, Genichi Taguchi studied textile engineering at Kiryu Technical College. After WWII he worked for the Japanese Ministry of Public Health and Welfare and conducted the nation's first study on health and nutrition. He also applied his quality improvement knowledge at Morinaga Pharmaceutical and even worked for a candy maker, Morinaga Sieka, to reduce the melting properties of caramel at room temperature.