214,454 research outputs found
Analytic Kramer kernels, Lagrange-type interpolation series and de Branges spaces
The classical Kramer sampling theorem provides a method for obtaining orthogonal sampling formulas. In particular, when the involved kernel is analytic in the sampling parameter it can be stated in an abstract setting of reproducing kernel Hilbert spaces of entire functions which includes as a particular case the classical Shannon sampling theory. This abstract setting allows us to obtain a sort of converse result and to characterize when the sampling formula associated with an analytic Kramer kernel can be expressed as a Lagrange-type interpolation series. On the other hand, the de Branges spaces of entire functions satisfy orthogonal sampling formulas which can be written as Lagrange-type interpolation series. In this work some links between all these ideas are established
Marcusenius altisambesi Kramer 2007
<i>Marcusenius altisambesi</i> Kramer et al., 2007 <p>(Figure 4C, D)</p> <p> <i>Gnathonemus okavangensis</i> Pappenheim, 1907. “Appeared as a form of <i>Gnathonemus macrolepidotus</i> Peters from the Okavango R., Damaraland, Africa; regarded as infrasubspecific and not available” (Eschmeyer 2013). “Nomen dubium” according to Gosse (1984) and Seegers (1996, p. 73).</p> <p> <i>Gnathonemus macrolepidotus</i>: Gilchrist and Thompson 1913, pp. 330–331.</p> <p> <i>Marcusenius altisambesi</i> Kramer et al. (2007), pp. 681–684.</p> <i>Type specimens</i> <p>Holotype: SAIAB 79135 (specimen L39isi), Namibia: Caprivi Strip: Lisikili on Upper Zambezi River. Paratypes: SAIAB 79136 (6), SAIAB 79137 (3), ZSM 35086 (5), ZSM 35085 (2), ZSM 35097 (1), ZSM 35082 (2); all examined.</p> <p> <b>–</b> Non-types, examined. One hundred and four specimens from the Upper Zambezi River System, East Caprivi, Namibia, some specimens from Kalimbeza presently alive in Aquarium:</p> <p> <b>–</b> SMF 28264 (22 specimens), from the Zambezi River, Lisikili backwater, 17 ◦ 33 ′ S, 24 ◦ 29 ′ E (type locality), coll.: F.H. van der Bank and B. Kramer, 5–7 March 1994,</p> <p> <b>–</b> SMF 28264 (45 specimens), ZSM 35084 (1), from the Kwando River, Nakatwa, 18 ◦ 06 ′ S, 23 ◦ 23 ′ E, in Mudumu National Park, coll.: B. Kramer, 9–15 March 1994, locality 6 on Figure 1,</p> <p> <b>–</b> SMF 28264 (two specimens), from Kwando River, Nkasa Island (18 ◦ 27 ′ S, 23 ◦ 42 ′ E) in Mamili National Park, close to locality 6 on Figure 1, coll.: F.H. van der Bank and B. Kramer, 9–10 September 1993,</p> <p> <b>–</b> 31 specimens, about 500 m from opposite Kalimbeza fishing camp, at downstream tip of small island between Lisikili side channel and main channel, coll.: F.H. van der Bank and B. Kramer, caught 21 August 1999, water conductivity and temperature, 84 µS cm, 22 ◦ C, size range 7.2–13.3 cm SL, arrival live in Regensburg 2 September 1999, EOD recording 28 September to 7 October 1999 at 100 µS cm−1 water conductivity and 21 ◦ C (EOD recording in Germany for quicker transport in Africa), presently alive,</p> <p> −1</p> <p> <b>–</b> ZSM 35083 (1), from Kwando River, Kongola Bridge, 17 ◦ 47 ′ 26.7 ′′ S, 23 ◦ 20 ′ 40.0 ′′ E, 24 January 2001, coll.: F.H. van der Bank and B. Kramer,</p> <p> <b>–</b> Non-types (63 specimens)from the Okavango River, Botswana, totalling at least 10 males, male size range 110–181 mm SL, juvenile/female size range 54–169 mm SL, examined:</p> <p> <b>–</b> SAIAB 79140 (9), ZSM 35079 (1), ZSM 35080 (3), ZSM 35081 (6) from the Okavango River, Makwena Lodge, near the township of Etsha no. 6, 19 ◦ 07 ′ 30 ′′ S, 22 ◦ 22 ′ E, coll.: F.H. van der Bank, J. Engelbrecht and B. Kramer, 20–22 January 2001, locality 7 on Figure 1,</p> <p> <b>–</b> SAIAB 79143 (6), ZSM 35096 (5), and 24 specimens presently alive in aquarium, from the Okavango River at Guma Lagoon, 18 ◦ 57 ′ 46.6 ′′ S, 22 ◦ 22 ′ 25.3 ′′ E, coll.: F.H. van der Bank and B. Kramer, 10–12 August 2004, close to locality 7 on Figure 1,</p> <p> <b>–</b> SAIAB 79141 (1), ZSM 35095 (1), and seven specimens presently alive in aquarium, details as in preceding paragraph, except for locality at Makwena, 19 ◦ 03 ′ 13.85 ′′ S, 22 ◦ 22 ′ 42.6 ′′ E, 12 August 2004.</p> <p> <i>Samples examined for genetics.</i> DNA samples are stored at Institute of Pharmacy and Molecular Biotechnology, Heidelberg University (IPMB).</p> <p> <b>–</b> IPMB 44903–44905, Namibia: Upper Zambezi: Kalimbeza, 17 ◦ 32 ′ 27.3 ′′ S, 24 ◦ 31 ′ 26.2 ′′ E, coll. F.H. van der Bank and B. Kramer, 21 August 1999;</p> <p> <b>–</b> IPMB 44638–44640 Botswana: Okavango: Guma Lagoon, 18 ◦ 57 ′ 46.6 ′′ S, 22 ◦ 22 ′ 25.3 ′′ E, coll. F.H. van der Bank and B. Kramer, 10 August 2004; IPMB 44641, 44642, as before, but 10–12 August 2004; GenBank accession numbers: (KC 202230 – KC 202237).</p> <i>Type locality</i> <p> Upper Zambezi River in East Caprivi (Namibia); specifically Upper Zambezi River between Lisikili and Kalimbeza (or Kalambesa, 17 ◦ 33 ′ S, 24 ◦ 29 ′ E to 17 ◦ 32 ′ 27.3 ′′ S, 24 ◦ 31 ′ 26.2 ′′ E; 22–26 km straight line downstream from Katima Mulilo; Figure 1, no. 5).</p> <p> The first record of <i>G. macrolepidotus</i> for the Upper Zambezi is that of Gilchrist and Thompson (1917, p. 562), specifying Lialui, Barotseland as origin. For a description, the authors refer to Gilchrist and Thompson (1913, p. 330), a description of South African specimens that Kramer et al. (2007) have referred to <i>M. pongolensis</i> (Fowler, 1934). The presence of <i>G. macrolepidotus</i> in the Upper Zambezi System was confirmed by Jubb (1958). Another possible synonym would be <i>G. okavangensis</i> if it were available (this name should be dropped from a list of synonyms, as suggested by Kramer et al. 2007). Upper Zambezi and Okavango specimens were recognized as representing a new species, <i>M. altisambesi</i>, that is well differentiated from <i>M. macrolepidotus</i> (Peters, 1852) by Kramer et al. (2007).</p>Published as part of <i>Kramer, Bernd & Wink, Michael, 2013, East-west differentiation in the Marcusenius macrolepidotus species complex in Southern Africa: the description of a new species for the lower Cunene River, Namibia (Teleostei: Mormyridae), pp. 2327-2362 in Journal of Natural History (J. Nat. Hist.) (J. Nat. Hist.) 47 (35 - 36)</i> on pages 2335-2337, DOI: 10.1080/00222933.2013.798699, <a href="http://zenodo.org/record/5197590">http://zenodo.org/record/5197590</a>
Aaron Kramer (1921-1997) papers, undated, 1943-1968
The collection documents the life and work of American poet Aaron Kramer through biographical sketches, copies of his poetry, as well as a copy of his Master of Arts thesis for the faculty of Brooklyn College.Published citations should take the following form: Identification of item, date (if known); Aaron Kramer (1921-1997) Papers; P-533; box number; folder number; American Jewish Historical Society, Boston, MA and New York, NY.Gift of the author,Poet, translator, and professor, Aaron Kramer was born on December 13, 1921, in Brooklyn, NY. Kramer is identified with the literary circles of New York City throughout the mid-20th century where his work focused on the role of poet as critic of society and voice of resistance towards injustice. His major works include poems in the compilations, Seven Poets in Search of an Answer (1941) and The Tune of the Calliope: Poems and Drawings of New York; his translations of poems from the Holocaust, and scholarly studies, such as, The Prophetic Tradition in American Poetry (1968).Finding Aid available in Reading Room and on Internet
thea-kramer/alcprint-simulation: v0.0.0
<p>Release for accompanying the publishing of the paper Analysis of addiction craving onset through natural language
processing of the online forum Reddit</p>
Oribata incisella Kramer, 1897, nov. sp.
<p>1. Oribata incisella nov. sp.</p> <p>Klauen dreigliedrig. Die Lamellen des Cephalothorax durch eine blattförmige, auf ihrer Schneide stehende Translamella verbunden. Die Lamellarborsten sind fein gezähnt und nicht glatt. Die Vorderenden der Lamellen nicht glatt abgeschnitten, sondern rundlich ausgeschnitten. Die Lamellarhaare stehen in dem Grunde des Ausschnitts. Die äußere Spitze des Ausschnittsrandes ragt weiter nach vorn vor als die innere Spitze. Die Translamella sehr kurz, so daß die beiden Lamellen nicht weiter auseinander stehen, als die Breite ihrer frei nach vorn vorragenden vorderen Enden beträgt. (Siehe Fig. 1 und 2.)</p> <p>Diese der Oribata setosa nahe verwandte Milbe ist 0,55 mm lang, 0,35 mm breit, dunkelbraun und unterscheidet sich von Letzterer durch den viel tieferen und schmaleren Einschnitt zwischen den vorderen Enden der Lamellen.</p> <p>Es mag dabei erwähnt werden, daß Oribata setosa Koch von Michael in seinen British Oribatidae Bd. I Taf. VII Fig. 3 und Taf. XXIII Fig. 9 völlig verschieden dargestellt wird als von Berlese in seinen Acari, Myriapodi et Scorp. ital. Fasc. 43, No. 4, obwohl Letzterer die Veröffentlichung des ersteren ausdrücklich anerkennt. Die Vorderenden der Lamellen bei Oribata setosa Koch (Michael) sind durch die lang vortretende Spitze an dem entsprechenden Organ der hier beschriebenen Oribatide deutlich unterschieden. Wenn oben Oribata setosa als Vergleichsspecies herangezogen wurde, so habe ich die in Heft 43 von Berlese veröffentlichte Figur dabei im Sinne gehabt.</p>Published as part of <i>Kramer, P., 1897, Zwei neue Oribatiden von der Insel Borkum, pp. 535-536 in Zoologischer Anzeiger 548</i> on page 53
Malanggane von Tombara / von Prof. Dr. Augustin Kramer.
"Wichtigste Literatur von 1870 an": p. 90-91.; Electronic reproduction. Canberra, A.C.T. : National Library of Australia, 2009
Self-designing networks and structural influences on safety: Developing a theory on the relation between organizational design and safety in temporary organizations that operate in a dynamic environment
Contains fulltext :
178382.pdf (Publisher’s version ) (Open Access)Delft University of Technology, 01 juni 2017Promotores : Ale, B.J.M., Kramer, E.H.213 p
Kramer, John P.
Also available as a printed booklet and from the Dean of Faculty website https://theuniversityfaculty.cornell.edu/Memorial Statement for John P. Kramer, who died in 2012. The memorial statements contained herein were prepared by the Office of the Dean of the University Faculty of Cornell University to honor its faculty for their service to the university
Mean, median and quartile values for nectar sugar mass/m<sup>2</sup>/day for each meadow treatment type across all cities and surveys, showing significant difference groups (p < 0.05) by the post-hoc Tukey-Kramer-Nemenyi test.
Mean, median and quartile values for nectar sugar mass/m2/day for each meadow treatment type across all cities and surveys, showing significant difference groups (p < 0.05) by the post-hoc Tukey-Kramer-Nemenyi test.</p
Mean, median and quartile values for pollen volume /m<sup>2</sup>/day) for each meadow treatment type across all cities and surveys, showing significant difference groups (p < 0.05) by the post-hoc Tukey-Kramer-Nemenyi test.
Mean, median and quartile values for pollen volume /m2/day) for each meadow treatment type across all cities and surveys, showing significant difference groups (p < 0.05) by the post-hoc Tukey-Kramer-Nemenyi test.</p
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