110,679 research outputs found
Les carnets de Dimitrov ou le journal de Dimitrov (9 mars 1933-6 février 1949)
VIIe congrès de l’IC, à droite G. Dimitrov en compagnie d’H. Pollitt, secrétaire du PCGB (parti communiste de Grande-Bretagne) Les Carnets de Georges Dimitrov ((Première édition : Georgi Dimitrov, Dnevnik, Sofija, Universitetsko izdatelstvo Sveti Kliment Ohridski, 1997 ; traduits et annotés ensuite en Allemand et édités par Bernhard Bayerlein [Georgi Dimitroff: Tagebücher 1933–1943, Berlin, Aufbau-Verlag, 2000], puis en France (traduit par Anne Castagnos-Sen, Tatiana Zazerskaia, Assia Stancev..
Асимптотические разложения для характеристик систем массового обслуживания типа M/G/1
[Dimitrov Boyan; Dimitrov B.; Dimitrov Bojan; Димитров Боян Н.]Russian. Bulgarian, English summar
Legal aspects of electronic signatures in Bulgaria
George G. Dimitrov examines the Bulgarian law on electronic signatures in detai
Legal aspects of electronic signatures in Bulgaria
George G. Dimitrov examines the Bulgarian law on electronic signatures in detai
О некоторых дифференциальных операторах второго порядка
[Dimitrov Dimitâr; Dimitrov D. G.; Димитров Димитр; Димитров Димитър Г.]Bulgarian. Russian, English summar
Pinkfloydia HORMIGA & DIMITROV 2011, GEN. NOV.
<i>PINKFLOYDIA</i> HORMIGA & DIMITROV GEN. NOV. <p> <i>Type species:</i> <i>Pinkfloydia harveii</i> Dimitrov & Hormiga sp. nov.</p> <p> <i>Etymology:</i> The genus is named after the British psychedelic and progressive rock band Pink Floyd. In its heyday Pink Floyd was an innovative group that created music, which was an eclectic mixture of styles. The band also pioneered the use of very sophisticated lights and lasers in their live shows and often had highly innovative album covers. <i>Pinkfloydia</i> has very unusual morphological features and its name aims to reflect its uniqueness. <i>Pinkfloydia</i> is an undeclinable proper name and feminine in gender.</p> <p> <i>Diagnosis: Pinkfloydia</i> can be easily distinguished from all other tetragnathid genera by the conspicuously enlarged PME placed on short ocular protrusions and by the conical and distinctively elevated cephalic area (Figs 9A, 10A, 12A, 14G). All other eyes are placed at the same level on the prominent cephalic region and are much smaller in size (Figs 9B, 10C, 12A, D, 14E). Males of <i>Pinkfloydia</i> differ from other tetragnathid males in having several conspicuously large macrosetae at the base of the paracymbium (Figs 8A–C, 13A–D, G) and an area of the cymbium covered with numerous modified short setae (cuspules) concentrated dorsally on the cymbial ectomedian process (Figs 8B, E, 13A, C, H, I). In addition, the <i>Pinkfloydia</i> male palp has a well developed metine embolic apophysis and an embolus that carries numerous short denticles (Figs 8A–C, 13B, E, F, 14A); the cymbium has a well developed cymbial ecto-basal and cymbial ecto-median processes (Figs 8A, 13A, D).</p> <p>Females are diagnosed by the presence of a flat epigynal plate that has numerous pores opening on its ventral surface (Figs 8F, 15D–E, G; no similar plate has been described in any other member of Tetragnathidae). Copulatory openings are displaced caudally and hidden by the distal edge of the epigynum in a transversal groove (Figs 8G, H, 15F).</p> <p> <i>Description:</i> Tiny spiders, total length 2.77–3.75 in males, 3.54–4.51 in females (but note that so far <i>P. harveii</i> is the only known species in this new genus). Cephalothorax brown, longer than wide – 1.36–1.61 long in males and 1.68–1.86 in females – with a well marked fovea (Figs 9C, 10B); cephalic area conical, conspicuously elevated and slightly projected over the chelicerae (Figs 9A, 10A, 12A, 14G). Sternum slightly longer than wide; conspicuously narrower distally, and with a ridged cuticle (Figs 12C, 14J). AME slightly larger than ALE and PLE but much smaller than PME; PME much larger than the other eyes and placed over small rounded rises at the top of the elevated cephalic area; PLE and ALE juxtaposed over a slight elevation (Figs 12A, 14G). Clypeus height more than one AME diameter, slightly higher in males than in females. Chelicerae cylindrical, longer and slender in males, with three teeth on the anterior and two teeth on the posterior margin (Figs 12D, 14E). Chelicerae with two small denticles near the fang joint (Fig. 12I). Legs without dorsal femoral trichobothria in both sexes. Abdomen rounded with a prominent caudal tubercle, more elongated in males (Figs 12F, H, 15B, C). Spinneret morphology (studied in one male and two females) as in most other tetragnathid spiders: ALS with about 30 piriform gland spigots in females and about 20 in males, ordered roughly in four (females) or three (males) arched lines (Figs 14B, 16D). PMS with two aciniform gland spigots, between the cylindrical and the minor ampu- tate gland spigots (Fig. 16E, F). PLS with six aciniform gland spigots ordered in a straight line between the cylindrical spigots and the ‘araneoid triplet’ (Fig. 16G). Flagelliform and aggregate gland spigots well developed in females (Fig. 16G) but reduced in adult males (Fig. 14C). Flagelliform spigot conical, apically pointed; aggregate spigots with wider bases and wide sockets (Fig. 16G). Epiandrous fusules placed in a shallow epigastric groove and arranged in three groups separated by low cuticular ridges (Fig. 14D). Tracheal spiracle placed very close to the spinnerets. Tracheal system consisting of two longer lateral tubes and two shorter medial ones (Fig. 14F, I). All tracheal tubes confined to abdomen (i.e. do not enter the prosoma). Male pedipalp with very large modified setae on paracymbium (Figs 8A–C, E, 13A, B, G). Cymbium carrying cymbial ecto-basal and cymbial ecto-median processes (Figs 8A, B, E, 13A, D). A field containing numerous short modified setae (cuspules) arranged in longitudinal lines is placed dorsally over the cymbial ecto-median process, which extends over the cymbium (Figs 8E, 13A, C, D, H, I). Tegulum well sclerotized, large and spherical in shape (Figs 8A–C, 13B). Conductor and embolus coiling together and arising apically from the centre of the tegulum (Figs 8A, C, 13E, F). Conductor well sclerotized, with a robust apical apophysis (Fig. 13F). Embolus with robust metine embolic apophysis, dorsoapically with numerous short denticles and a distinctively slender apex (Fig. 13F). Spermatic duct enters the tegulum (towards the fundus) through the embolus base, widening in diameter shortly after (Fig. 8D). Spermatic duct without switchbacks and one and a half spiral turns before reaching the fundus (Fig. 8D).</p> <p>Female genitalia entelegyne, with a flat, well chitinized epigynum that has numerous pores dorsally (Figs 8F–H, 15D–H). These pores might be related to the secretions that form the epigynal plug observed in some of the specimens (Fig. 10E). Spermathecae oval with weakly sclerotized walls (Figs 8G, 15F, H).</p> <p> <i>Phylogenetics: Pinkfloydia</i> is a member of the Australian– New Zealand tetragnathid lineage <i>Nanometa</i> clade.</p> <p> <i>Natural history:</i> See under <i>P. harveii</i> sp. nov.</p> <p> <i>Composition:</i> The only known member of this genus is <i>P. harveii</i> sp. nov.</p> <p> <i>Distribution:</i> Western Australia (see under <i>P. harveii</i> sp. nov.).</p>Published as part of <i>Dimitrov, Dimitar & Hormiga, Gustavo, 2011, An extraordinary new genus of spiders from Western Australia with an expanded hypothesis on the phylogeny of Tetragnathidae (Araneae), pp. 735-768 in Zoological Journal of the Linnean Society (Zool. J. Linn. Soc.) (Zool. J. Linn. Soc.) 161 (4)</i> on pages 754-756, DOI: 10.1111/j.1096-3642.2010.00662.x, <a href="http://zenodo.org/record/5440041">http://zenodo.org/record/5440041</a>
Controlled Process with Random Breakdowns and Repeat Actions
[Dimitrov Boyan N.; Димитров Боян Н.]; [Petrov Peter G.; Петров Петър Г.]Some models minimizing the duration of the unreliable process by the help of statement copies are considered
e-Justice as adopted in Bulgaria
Associate Professor Dr George G. Dimitrov sets out the Concept on E-Justice adopted by the Bulgarian Council of Ministers in 2012, and sets out the purpose of the Multi-annual Action Plan for the period 2009-2013 in the area of European E-Justice Index words: Bulgaria; e-Justice; judicial reform; legal effect of electronic documents and electronic signatures in the judicial system; amending substantive and procedural laws
e-Justice as adopted in Bulgaria
Associate Professor Dr George G. Dimitrov sets out the Concept on E-Justice adopted by the Bulgarian Council of Ministers in 2012, and sets out the purpose of the Multi-annual Action Plan for the period 2009-2013 in the area of European E-Justice Index words: Bulgaria; e-Justice; judicial reform; legal effect of electronic documents and electronic signatures in the judicial system; amending substantive and procedural laws
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