212 research outputs found

    KUNAERNE KÆMPER - MED MYTE OG METAFOR

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    Vibeke Tuxen: The Kunas Struggle - with Myth and Metaphor The author is working with the kuna people on a demarcation project and observes how the kuna use their myths and metaphors in practice to analyse the presence of foreigners, whom experience has taught them not to trust, but on whom they also depend for their territory. The myth of Duiren who taught the Kunas to resist and fight for their culture but who also depended on the help of other people, is put forward by a chief in his chanting, analysing the present situation. Kuna myths form a total of interrelated stories, which on the one hand form the mind of the Kuna chief in his analysis, and on the other hand certain parts, or myths, are being picked out to show the angle that the chief wishes to put forward to his people. Personal names can be changed and molas can be sold. Myths, names, and molas are three ways in which the Kuna relate themselves to the outer world and still maintain their own way of living. Through all three, foreign aspects can be expressed, let in, and let out again

    Mount Martha Estate about four miles south of Mornington [cartographic material] /

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    Cadastral map of the Mount Martha Estate on the Mornington Peninsula in Victoria showing the residence of Robert Watson, Mount Martha Domain, buildings, streets, numbered land allottments, subdivisions, some with names and area. Relief shown by contours and hachures.; "All roads 66 feet wide except otherwise specified. All right of ways 16'6" wide".; "Note: Contour lines shown in red denote every ten feet of rise above high water mark".; Oriented with north to the left.; Also available in an electronic version via the Internet at: http://nla.gov.au/nla.map-rm1068. Inset: Local sketch [of Port Phillip Bay]

    Plan of Melbourne & suburbs 1888, [1] [cartographic material]

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    Map of central Melbourne, Port Melbourne, and Williamstown showing streets and railway lines.; Plate [1] from: Plan of Melbourne & suburbs 1888. [London] : Charles F. Maxwell, 1888.; Title supplied by cataloguer.; Also available in an electronic version via the internet at: http://nla.gov.au/nla.map-raa44-s3

    Plan of Melbourne & suburbs 1888, [3] [cartographic material].

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    Map of Melbourne that includes Carlton, North Melbourne, Flemington and Footscray, showing streets and railway lines.; Plate [3] from: Plan of Melbourne & suburbs 1888. [London] : Charles F. Maxwell, 1888.; Title supplied by cataloguer.; Also available in an electronic version via the internet at: http://nla.gov.au/nla.map-raa44-s5

    Plan of Melbourne & suburbs 1888 [cartographic material] /

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    Also available in an electronic version via the internet at: http://nla.gov.au/nla.map-raa44

    Registros faunísticos de proturos en Argentina (Insecta: Protura)

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    Berberentulus nelsoni Tuxen, 1976 and Gracilentulus sp. are recorded in soils from Argentina. For our knopwledge, the two acerentomids reported in this paper represent the first records of both species from Argentina. Specimens were collected in Córdoba province, during the months of November 2000 and April 2001.Berberentulus nelsoni Tuxen, 1976 y Gracilentulus sp. son registrados en suelos de Argentina. Estos dos acerentomidos reportados en este trabajo probablemente representan el primer registro de ambas especies para Argentina. Los especímenes fueron colectados en la provincia de Córdoba, durante los meses de noviembre de 2000 y abril de 2001

    Gracilentulus Tuxen 1963

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    Key to the species without sensillum <i>b’</i> on foretarsus of <i>Gracilentulus</i> <p> A key to <i>Gracilentulus</i> species by Szeptycki (1993) includes all species known to that time, including those of the “ <i>gracilis ”</i> group (foretarsal sensillum <i>b’</i> present, <i>b</i> longer than half of <i>c</i>) is currently still available. An updated key to species without sensillum <i>b'</i> on the foretarsus is provided.</p> <p> 1. Foretarsal sensillum <i>b</i> subequal to <i>c</i> and <i>d</i> in length.......................................................... 2</p> <p> - Foretarsal sensillum <i>b</i> longer than <i>c</i> and <i>d..................................................................</i> 3</p> <p> 2. Foretarsal sensillum <i>f</i> halfway between <i>e</i> and <i>g</i>; abdominal tergites II–VI with eight anterior setae................................................................................................... <i>G. floridanus</i> (Ewing) (USA)</p> <p> - Foretarsal sensillum <i>f</i> close to <i>e</i>; abdominal tergites II–VI with six anterior setae.......... <i>G. microtrichus</i> <b>sp. nov.</b> (Japan)</p> <p> 3. Foretarsal sensillum <i>e</i> longer than <i>f</i>; labial palpus with four setae and one sensillum................................. 4</p> <p> - Foretarsal sensillum <i>e</i> subequal to or shorter than <i>f</i>; labial palpus with three setae and one sensillum.................... 5</p> <p> 4. Foretarsal sensillum <i>t1</i> distal to <i>α3</i>; abdominal tergite VII with eight anterior setae............ <i>G. shippingensis</i> Yin (China)</p> <p> - Foretarsal sensillum <i>t1</i> proximal to <i>α3</i>; abdominal tergite VII with six anterior setae..... <i>G. chichibuensis</i> Nakamura (Japan)</p> <p> 5. Foretarsal sensillum <i>c</i> and <i>d</i> proximal to <i>t2</i>; <i>f</i> subequal to <i>g</i> in length; <i>a</i> not reaching base of <i>t2.....</i> <i>G. aokii</i> Imadaté (Japan)</p> <p> - Foretarsal sensillum <i>c</i> and <i>d</i> at same level with <i>t2</i>; <i>f</i> longer than <i>g</i>; <i>a surpassing</i> base of <i>t2...........................</i> 6</p> <p> 6. Foretarsal sensillum <i>a’</i> surpassing base of <i>α4</i>; <i>P3a</i> absent on abdominal tergite VI; <i>P3</i> on tergite VI anterior to other posterior setae................................................................ <i>G. maijiawensis</i> Yin & Imadaté (China)</p> <p> - Foretarsal sensillum <i>a’</i> not reaching base of <i>α4</i>; <i>P3a</i> present on abdominal tergite VI; <i>P3</i> on tergite VI in same row as other posterior setae............................................................... <i>G. macrotarsus</i> <b>sp. nov.</b> (Japan)</p>Published as part of <i>Nakamura, Osami, 2021, The Japanese species of the genus Gracilentulus (Protura: Acerentomidae), pp. 271-294 in Zootaxa 4991 (2)</i> on pages 292-293, DOI: 10.11646/zootaxa.4991.2.3, <a href="http://zenodo.org/record/5030484">http://zenodo.org/record/5030484</a&gt

    Establishing, Implementing and Auditing Linux Operating System Hardening Standard for Security Compliance

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    Regulatsioonid loovad väljakutseid ettevõtetele, sest nad peavad igal aastal turvavastavuseks täitma turvastandardeid. Turvastandardite mitte järgimine teeb ettevõtted küberohtudele haavatavaks. Antud magistritöö pakub lahenduse, et täita ettevõtte operatsioonisüsteemi tugevdamise nõudeid luues, implementeerides ja auditeerides Linux (Debian) operatsioonisüsteemi tugevdamise turvastandardit. Magistritöö käsitleb tugevdatud virtuaalmasina tõmmise ehitamist Microsoft Azure pilveplatvormile, mis vastab operatsioonisüsteemi tugevdamise standardile. Kuna lihtsalt ettevõtte turvavastavuse nõuete täitmine ei ole piisav, siis tuleb tagada selle auditeeritavus, et turvavastavuse täitmist audiitoritele tõestada. Antud magistritöös on koostatud lahendus, mis automaatselt auditeerib operatsioonisüsteemi tugevdamise standardit ja võimaldab kinnitada erinevusi standardi ja tegelike virtuaalmasinate konfiguratsioonide vahel. Autor on analüüsinud virtuaalmasinate turvavastavust enne ja pärast uue operatsioonisüsteemi tugevdamise standardi rakendamist.Regulations create challenges to the companies as they must meet tough security standards for security compliance every year. Not following security standards are making companies more vulnerable to cyber threats. This paper provides a proof-of-concept solution for being compliant with operating system hardening requirements of the company by establishing, implementing and auditing Linux (Debian) operating system hardening standard. This work will focus on building a hardened virtual machine image for Microsoft Azure platform that is compliant with the hardening standard that is established in this thesis. As it is not enough to just meet the company security compliance requirements, then there is a need to ensure auditability of it, therefore a proof-of-concept solution is built for automatically auditing the operating system hardening standard that continuously allows to validate the gap between the standard and actual configurations on virtual machines. To demonstrate the result, the author analysed virtual machines compliance state before and after implementing the new operating system hardening standard
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