4,312 research outputs found
Bibliographics for the 983 eprints in the live archives of E-LIS : trends and status report up to 7th July 2004, based on author-self-archiving metadata
The priority for ideas and philosophy related to "Network Theory" have been traced back and documented by Braun(2004),and credit goes to Karinthy(1929).The IT has empowered to realise it, as the most practical phenomena and it is no more a humour. The OAI (Open Archives Initiatives)and ACIS (Academic Contributor Information System)are progressive in the direction ,which may lead to realise the "Collective Genius" at global level. Focus of present study is on Author-Self-Archiving (A-S-A)Metadata of the 983 Eprints in the Live Archives of the E-LIS (EPrints of Library and Information Science),which were approved till 7th July 2004.The A-S-A Metadata was used for librametric analysis. Self-explanatory bibliographics are illustrated.The highlights include: Conference papers (34%); highest approval, June 2004 (28%); published archives (76%);not refereed (52%); not in public domain (60%); highest self-archiving-author (De Robbio, Antonella).The Nos. of EPrints having single JITA domain specifications were: Theoretical and general aspects of libraries and information(27); Information use and sociology of information(80);Users,literacy and reading(13);Libraries as physical collections(30);Publishing and legal issues(57);Management(13);Industry, profession and education(36);Information sources, supports, channels(113) ; Information treatment for information services, Information functions and techniques (101); Technical services libraries, archives and museums(25); Housing technologies(1); Information technology and library technology(92); and Inter-domainery (395) i.e. having specifications of two or more than two JITA classes
Scientometric portrait of Ranjit Kumar Mitra
Scientometric analysis of 91 publications by Ranjit Kumar Mitra, during 1965-2001 in domains: Biochemical Genetics (30), Molecular Biology (16), Bioenergetics (12), Plant Biochemistry (11), Biotechnology (10), Methodology (5), Popular Science (4), Gene Accessions (2), and Cytogenetics (1); revealed research team (53 collaborators) , prominent ones with their authorship credits being : C. R. Bhatia (43), T. Gopala Krishna (19), K. N. Suseelan (10), and S. E. Pawar (9). Productivity Coefficient was 0.59 and overall Collaboration Coefficient was 0.95. Publication Concentration was 36, Publication Density was 1.28, and average Bradford Multiplier was 1.5. Major achievements, authorship pattern, channels used, central tendencies on bibliographic characteristics, Synchronous Self-citation Rate, and keyword frequencies in titles of the publications are documented
US-Europe Differences in Technology-Driven Growth: Quantifying the Role of Education
European economic growth has been weak, compared to the US, since the 80s. In previous work (Krueger and Kumar, 2003), we argued that the European focus on specialized, vocational education might have been effective during the 60s and 70s, but resulted in a growth gap relative to the US during the subsequent information age, when new technologies emerged more rapidly. In this paper, we extend our framework to assess the quantitative importance of education policy, when compared to labor market rigidity and product market regulation, other policy differences more commonly suggested to be responsible for US-Europe differences. A assigns a major role to education policy in explaining US-Europe growth differences.
Inter State Disparities under Economic Reform Period - Comparative Study of Gujarat, Maharashtra, Rajasthan and Madhya Pradesh
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Extreme Learning Machine Approach for Transmission Line Protection using Wavelet Singular Entropy
Internet of Things and machine learning in agriculture: technological impacts and challenges De Gruyter frontiers in computational intelligence ;, v. 8./ edited by Vishal Jain, Jyotir Moy Chatterjee, Abhishek Kumar, Pramod Singh Rathore.
Includes bibliographical references and index.Agriculture is one of the most fundamental human activities. As the farming capacity has expanded, the usage of resources such as land, fertilizer, and water has grown exponentially, and environmental pressures from modern farming techniques have stressed natural landscapes. Still, by some estimates, worldwide food production needs to increase to keep up with global food demand. 'Machine Learning and the Internet of Things' can play a promising role in the Agricultural industry, and help to increase food production while respecting the environment. This book explains how these technologies can be applied, offering many case studies developed in the research world.Part I. 1. 2. 3. 4. 5. Part II. 6. 7. 8. 9. Part III. 10. 11. 12. 13. 14. 15. 16. 17. 18. Index. Parul Verma and Umesh Kumar -- Ashish Tripathi, Arun Kumar Singh, Khararee Narayan Singh, Krishna Kant Singh, Pushpa Choudhary, and Prem Chand Vashist -- Jyoti Batra Arora -- Nilesh Uke, Trupti Thite, and Supriya Saste -- Sivakumar Rajagopal, Sonai Rajan Thangaraj, J. Paul Mansingh, and B. Prabadevi -- Aarti and Amit Kumar -- K. Krishnaveni, E. Radhamani, and K. Preethi -- Jibin Varghese, J. Jeba Praba, and John J. George -- Nikunj Rajyaguru, Shubhendu Vyas, and Kunjan Vyas -- Suvarna Pawar and Pravin Futane -- J. H. Kamdar, M. D. Jasani, J. D. Jasani, J. Jeba Praba, and John J. George -- Sapna Nigam, Rajni Jain, Sudeep Marwaha, and Alka Arora -- Sandip Kumar Roy and Preeta Sharan -- Mahua Bose and Kalyani Mali -- Tan Pham Nhat and Son Vu Truong Dao -- Shubhendu Vyas, Nikunj Rajyaguru, and Kunjan Vyas -- Yash Joshi, Sachit Mishra, and R. S. Ponmagal -- Punam Bedi, Pushkar Gole, and Sumit Kumar Agarwal -- Frontmatter -- Preface -- Acknowledgments -- Contents -- List of contributors -- Machine Learning and Internet of Things in Agriculture -- Smart farming : Using IoT and machine learning techniques / Food security and farming through IoT and machine learning / An innovative combination for new agritechnological era / Recent advancements and challenges of artificial intelligence and IoT in agriculture / Technological impacts and challenges of advanced technologies in agriculture / Applications of Internet of Things in Agriculture -- IoT-based platform for smart farming - Kaa / Internet of things platform for smart farming / Internet of things platform for smart farming / Internet of things platform for smart farming / Applications of Machine Learning in Agriculture -- Kisan-e-Mitra : A tool for soil quality analyzer and recommender system / Artificial intelligence for plant disease detection : Past, present, and future / Wheat rust disease identification using deep learning / Image-based hibiscus plant disease detection using deep learning / Rainfall prediction by applying machine learning technique / Plant leaf disease classification based on feature selection and deep neural network / Using deep learning for image-based plant disease detection / Using deep learning for image-based plant disease detection / Using deep learning for image-based plant disease detection /1 online resource (xvi, 410 pages)
Food Composition and Feeding Intensity of Channa Striata from Selected Stations of River Krishna, Andhra Pradesh
Aim of the current piece of work was to study the food composition and feeding intensity of Channa striata from Krishna river from June, 2019 to July 2020. The gut contents were analysed from the three stations to undertaken the food composition of the fish. The major components of food items in the gut of fish was: fishes and their larvae, crustaceans, insect larvae, annelids with semi digested material and unidentified items. Fishes are identified as of teleost, particularly carps and cat fish larvae but most of the fishes leftovers could not be recognized since they are found in advanced phases of digestion with only scales & skeleton remains. Gastropods are identified as polycheate larvae, and Crustaceans are prawn and crab larvae. The percentage occurrence of fishes and their larvae in gut contents and also feeding intensity were indicated that C. striata preferential food was fishes followed by crustaceans
Scientometric Portrait of Homi Jehangir Bhabha: The Father of Indian Nuclear Research Programme
Quantitative and qualitative analysis with graphic representation of the publication productivity of a scientist facilitates easy and clear perception about the work of a scientist. Bhabha’s scientific work spanned over more than three decades (1933-1967) during which he published 104 publications, which could be classified into nine fields: Interaction of Radiation with Matter (4), Quantum Electrodynamics (5), Mathematical Physics (2), Cosmic Ray Physics (18), Elementary Particle Physics (14), Field Theory (15), General Physics (2), Nuclear Physics (4) and General (40). The highest number of publications (6) were published in 1941, 1945 and 1964 respectively. The average number of publications published per year was 3.05. His productivity coefficient was 0.05 which is a clear indicates that his publication productivity was quite consistent throughout his scientific career. He was single author in 79 of his publications and the main author in 24 publications indicates that he always preferred to work himself and lead the team as ‘mentor’. Bhabha had 22 collaborators during the period. Team of research collaborators working with a successful scientist documents the sociological aspect of history of science while generating knowledge by a leader in a domain.
Bhabha became a citable author in 1937. Bhabha received 1211 citations to his 30 publications out of 104 publications. Out of 104, 74 publications did not receive any citations. Out of 74 publications, 40 publications dealt subjects mainly of general interest. Bhabha’s 86.66 percent of cited publications received their first citations within four years of their publication indicates that his publications were noticed immediately and had direct impact among the fellow researchers working all over the world. His overall citation rate was 11.64 per cited publication. The highest citations 389 were received to the domain ‘Cosmic ray physics’. The highest number of citations received were 45 in 1938. His self-citations were only 24 (1.98%) and citations by others were 1187 (98.02%). The highest self citations were six in 1946. Bhabha’s mean diachronous self-citation rate was 1.98. The highest citation rate 28.4 was to the domain ‘Quantum electrodynamics. His single authored publications have received the highest number 863 (71.26%) of citations. Bhabha’s five publications have been cited more than 100 times each. His publications have been cited by the authors working in various diverse fields like nuclear physics, mathematical physics, instrumentation, optics, geophysics and geochemistry, condensed matter physics, applied physics, electrical and electronic engineering, mechanical engineering etc., indicating a very diverse influence and impact of Bhabha’s publications. Bhabha’s publications have also been cited by the Nobel laureates like V. L. Ginzberg, Wolfgang Pauli, H. A. Bethe, M. Born, W. Bothe, E. P. Wigner, H. Yukawa, P. M. S. Blackett and C. N. Yang which is an indication of his originality of ideas and high quality of publications
Scientometric portrait of Nobel laureate Leland H. Hartwell
Leland H. Hartwell was honoured with the Nobel Prize in Physiology or Medicine (2001) at his 62 years age and at 41 years of research publishing career. The first contribution of the author was in 1961 at the age of 22. The number of his contributions in a year peaked in 1997 when it touched 8. He had 108 publications during 1961 – 2001 in domains: Molecular Biology of Cell Cycle Regulation (43), Genetics of Cell Division (48), Genomic Re-arrangement and DNA Repair (9), Molecular Genetics of Yeast Cell Fission (5), and Drug Target Interaction (3) which were analysed for authorship pattern with his 101 collaborators. Most active researchers having number of publications with Leland H. Hartwell were : Weinert, T. A. (10), Garvik, B. M. (8), McLaughlin, C. S. (8), Jenness, D. D. (5). His productivity coefficient was 0.76 which clearly indicates that his productivity increased after 50 percentile age. Highest collaboration coefficient (1) for Leland H. Hartwell was found during 1963-1965, 1968-1969, 1977, 1981-1983, 1985-1990, 1996 and 1998-2001. Journals have been the most preferred channel of communication where, as many as 96 papers out of 108 have been published. The core journals publishing his papers were: Cell (14), Genetics (12), Mol. Cell Biol. (8), J. Bactariol. (7), J. Cell Biol. ( 7), Science (7) J. Mol. Biol.(6), Exp. Cell Res. (5), and Proc. Nat. Acad. Sci.(5). Publication density is 2.63 and Publication concentration is 14.63. Most prolific keywords in titles of publications were: Saccharomyces cerevisiae , Yeast , Cell division cycle , RAD9, DNA Damage , Genes , Cell cycle, Genetic control , Check point (s) , Cell division , Mutant of Yeast
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Not AvailableSearch; Personalize: Your alerts; Your baskets; Your searches. Your alerts; Your baskets; Your searches. login. login. Home > Management of early blight disease of tomato cv 'Kashi Amrit' through fungicides, bioagents and cultural practices in India. World Vegetable Center. Information; Usage statistics; Files; Holdings. Record Details. Title: Management of early blight disease of tomato cv 'Kashi Amrit' through fungicides, bioagents and cultural practices in India. Author(s): Kumar, V. Gupta, RC Singh, PC Pandey, KK Kumar, R. Rai, AB Rai, M. Publication date: 2007. Subject(s): TOMATOES EARLY BLIGHT PLANT DISEASES FUNGICIDES PLANT DISEASE CONTROL DISEASE RESISTANCE ALTERNARIA SOLANI ALTERNARIA ALTERNATA GROWTH India IN …Not Availabl
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