9,770 research outputs found
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The Role of Scientific Discovery in the Establishment of the First Biological Weapons Programmes
YesThis report addresses the scientific and technological discoveries in the biological sciences that enabled the early interest in biological warfare to move from hurling infected corpses into enemy cities in ancient times, through use of small cultures of animal pathogens to sabotage enemy livestock in World War I, to the origins of organised military biological weapons (BW) programmes directed at humans, animals, and plants in the inter-war period. It builds on DandoÂżs 1999 paper: The Impact of the Development of Modern Biology and Medicine on the Evolution of Offensive Biological Warfare Programs in the Twentieth Century.1 For the historical aspects of biological warfare programmes this report primarily draws from the Stockholm International Peace Research Institute volume: Biological and Toxin Weapons: Research, Development and Use from the Middle Ages to 1945.
Special Libraries, September 1957
Volume 48, Issue 7https://scholarworks.sjsu.edu/sla_sl_1957/1006/thumbnail.jp
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Control engineering and the professional societies
By the time control engineering emerged as a coherent body of knowledge and practice (during and just after WW2) professional engineering societies had existed for many decades. Since control engineering is an interdisciplinary branch of the profession, new sections devoted to control were quickly established within the various existing technical societies. In addition, some new bodies devoted specifically or primarily to control were established. This brief paper will present in outline the history of how control engineering as a distinct branch of engineering became represented in technical societies – or their equivalent – in the USA, UK, USSR, Germany and France
Control in the technical societies: a brief history
By the time control engineering emerged as a coherent body of knowledge and practice (during and just after WW2) professional engineering societies had existed for many decades. Since control engineering is an interdisciplinary branch of the profession, new sections devoted to control were quickly established within the various existing technical societies. In addition, some new bodies devoted specifically or primarily to control were established. This article, a revised version of a paper presented at the IEEE 2009 Conference on the History of Technical Societies, describes how control engineering as a distinct branch of engineering became represented in technical societies in a number of countries
What is KASC ?
The organization and functions of the Knowledge Availability System Center are discussed. The KASC is defined as a nonprofit, computerized information center at the University of Pittsburgh. The KASC provides literature searching and referral services designed to identify useful scientific and technical data to its clients. Two types of service are provided: (1) the retrospective search, in which entire reference files are searched, and (2) the current awareness service which provides information on new developments and work being done in related fields. It is stated that the services provided by KASC will reduce duplication of expensive research and aid the movement of new knowledge across industrial, regional, and disciplinary boundaries
Scientific publications and presentations relating to planetary quarantine. Volume 5 - The 1970 supplement
Bibliography of scientific publications and presentations relating to planetary quarantine for year 1970 - Vol.
A Model of Total Factor Productivity Built on Hayek’s View of Knowledge: What Really Went Wrong with Socialist Planned Economies?
Because Hayek’s view goes beyond the Walrasian framework, his descriptive arguments on socialist planned economies are prone to be misunderstood. This paper clarifies Hayek’s arguments by using them as a basis to construct a model of total factor productivity. The model shows that productivity depends substantially on the intelligence of ordinary workers. The model indicates that the essential reason for the reduced productivity of a socialist economy is that, even though human beings are imperfect and do not know everything about the universe, they are able to utilize their intelligence to innovate. Decentralized market economies are far more productive than socialist economies because they intrinsically can fully utilize human beings’ intelligence, but socialist planned economies cannot, in large part because of the imagined perfect central planning bureau that does not exist.Hayek; Market economy; Socialist planned economy; Total factor productivity; Innovation; Experience curve effect; China
Special Libraries, July-August 1977
Volume 68, Issue 7-8https://scholarworks.sjsu.edu/sla_sl_1977/1005/thumbnail.jp
Protection of Intellectual Property Rights in a Transition Economy
Market perestroika and integration into the world economy require strengthening protection of intellectual property rights (IPRs) in transition economies like Russia. This paper examines patterns and emerging trends in piracy and protection of IPRs in Russia and analyzes the economic effects of strengthening IPRs in the context of Russia's market transition. In the early 1990s, Russia brought IPR legislation up to international standards. Yet IPR enforcement remains weak, and piracy of foreign software, trademarks, audio- and videocassettes flourishes. Ineffective IPR protection stifles innovation, trade, and direct foreign investment, and may become an obstacle to Russia's future membership in the World Trade Organization.intellectual property rights, Russia, piracy, transition economy
Pine Pitch Canker and Insects: Regional Risks, Environmental Regulation, and Practical Management Options
ProducciĂłn CientĂficaPine pitch canker (PPC), caused by the pathogenic fungus Fusarium circinatum (Nirenberg
and O’ Donnell), is a serious threat to pine forests globally. The recent introduction of the pathogen to Southern Europe and its spread in Mediterranean region is alarming considering the immense
ecological and economic importance of pines in the region. Pines in forests and nurseries can be
infected, resulting in severe growth losses and mortality. The pathogen is known to spread in plants
for planting and in seeds, and results from recent studies have indicated that F. circinatum may also
spread through phoretic associations with certain insects. With this review, we aim to expand the
current understanding of the risk of insect-mediated spread of PPC in different parts of Europe.
Through the joint action of a multinational researcher team, we collate the existing information about
the insect species spectrum in different biogeographic conditions and scrutinize the potential of
these insects to transmit F. circinatum spores in forests and nurseries. We also discuss the impact of
environmental factors and forest management in this context. We present evidence for the existence of
a high diversity of insects with potential to weaken pines and disseminate PPC in Europe, including
several common beetle species. In many parts of Europe, temperatures are projected to rise, which
may promote the activity of several insect species, supporting multivoltinism and thus, further
amplifying the risk of insect-mediated dissemination of PPC. Integrated pest management (IPM)
solutions that comply with forest management practices need to be developed to reduce this risk.
We recommend careful monitoring of insect populations as the basis for successful IPM. Improved
understanding of environmental control of the interaction between insects, the pathogen, and host
trees is needed in order to support development of bio-rational strategies to safeguard European pine
trees and forests against F. circinatum in future.European Cooperation in Science and Technology (COST Action FP1406 PINESTRENGTH)Ministerio de EconomĂa, Industria y Competitividad - Fondo Europeo de Desarrollo Regional (project AGL2015-69370-R)Portuguese Foundation for Science and Technology (contract IF/00471/2013/CP1203/CT0001)Russian Foundation for Basic Research (grant 17-04-01486)Saint Petersburg State Polytechnical University (project 2019-0420
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