28 research outputs found
Reader : "Intelligente Systeme in der Landschaftsarchitektur" - Kontaktstudientage 2024
Die 53. Osnabrücker Kontaktstudientage 2024 an der Hochschule Osnabrück standen unter dem Leitthema „Intelligente Systeme in der Landschaftsarchitektur“ und widmeten sich intensiv der kritischen Reflexion technologischer Innovationen sowie ihrer praktischen und methodischen Auswirkungen auf die Disziplin. Organisiert vom Freundeskreis Hochschule Osnabrück Gartenbau & Pflanzentechnologie und Landschaftsarchitektur e.V. in Kooperation mit der Hochschule Osnabrück und inhaltlich geleitet von Daniel Theidel, bot die Veranstaltung mit rund 220 Teilnehmenden ein umfassendes Forum für den Austausch zwischen Wissenschaft und Praxis. Fachvorträge und interaktive Workshops verdeutlichten, dass intelligente Systeme weit über reine KI-Verfahren hinausgehen und insbesondere auch parametrische und algorithmische Ansätze umfassen. Die Tagung ermöglichte den Teilnehmenden, aktuelle Technologien praxisnah zu erleben, Chancen und Herausforderungen kritisch zu diskutieren und neue Perspektiven für die Anwendung in der Landschaftsarchitektur zu entwickeln.
Tagesprogramm
Offiziell eröffnet wurde die Veranstaltung um 8:45 Uhr durch Studiendekan Prof. Dr. Cord Petermann sowie Marc-Guido Megies, Vorsitzender des Freundeskreises. Im anschließenden ersten Vortragsblock, moderiert von Ole Oßenbrink, wurden zukunftsweisende Ansätze intelligenter Systeme präsentiert und diskutiert:
09:00 Uhr: „Keynote „Intelligente Systeme in der Landschaftsarchitektur – Mehr als KI“ Daniel Theidel und Philipp Zmijewski, Hochschule Osnabrück
09:30 Uhr: „KI in der Praxis – Ergebnisse einer groß angelegten Umfrage unter Landschaftsarchitekturbüros“ Christian Müller-Sienra, Competitionline
10:15 Uhr: „KI-gestützte Gebäudeerkennung – Innovative Ansätze beim LGLN“ Dr. Jonas Bostelmann, Landesamt für Geoinformation und Landesvermessung Niedersachsen
10:45 Uhr: „Computational Planting – Digitale Tools für ökologische und gestalterische Anforderungen“ Chris Landau, Landau Design+Technology, Philadelphia, USA
11:30 Uhr: Björn Bodem (BDLA Niedersachsen+Bremen) führte in eine abschließende Diskussion, die auf die nachfolgenden Workshops überleitete.
14:00 bis 16:00 Uhr:
• Workshop 1: KI in der Landschaftsarchitektur (Thiemo Tippmann)
• Workshop 2: Intelligente Systeme in der Landschaftsarchitektur (Daniel Theidel)
• Workshop 3: Land Design – Computational Planting-Methoden (Chris Landau / Englisch)
• Workshop 4: KI in Studium und Lehre (Philip Zmijewski)
Der Tag endete mit der Verleihung von Förderpreisen, der Ehrung verdienter Persönlichkeiten und einer gemeinsamen Abendveranstaltung
Ornithia zapotensis Tippmann 1960
Ornithia zapotensis Tippmann, 1960. Material examined. MEXICO, Jalisco: Est. Biol. Chamela, 10 males, 7 females, VII-13/18 -1992, B. K. Eya col. (BKEC); 5 males, VII-17/21 -1993, B.K. Eya col. (BKEC); 15 km N Melaque Jct., 2 males, VII-17/21 -1993, B.K. Eya col. (BKEC); 1 male, 14.IX. VII-1993, Morris, Huether, Wappes cols. DPI_ FSCA 0 0 0 0 9713 (FSCA); 3 females, 2 males, 10-20. VII. 1985, E. Giesbert Col. DPI_ FSCA 00009827 / DPI_ FSCA 00009824 / DPI_ FSCA 00009823 / PDPI_ FSCA 00009822 / PDPI_ FSCA 00009821 (FSCA); 20 km s of El Tuito, 13 specimens (ACMT); 12 males, 4 females, 14.VII.1993, Morris, Huether, & Wappes cols. (RFMC); 4 females, 1 male, 13-19.VII.1993, J.E. Wappes Col., USNMENT 01488159/USNMENT 01488161/USNMENT 01488162/USNMENT 01488163/ USNMENT 0 1488165 (USNM); burn area, 5 males, 14-VII-1993, Morris, Huether, Wappes cols. 2014// DPI_ FSCA 00009723 / DPI_ FSCA 00009717 / DPI_ FSCA 00009718 / DPI_ FSCA 00009715 / DPI_ FSCA 0 0 0 0 9714 (FSCA); MX 200, 1.2 km. S. of La Cumbre, 1 male, 29.VII.2011 Skillman & Turnbow cols. (FWSC); 1 male, 3-VIII-2011, Skillman & Turnbow cols. (FWSC); 1 female, MX 80 Melaque Jct. MX 200, Pemex Sta. 20-VII- 2011, Skillman & Turnbow Cols. (FWSC); Tuxcaquesco, 860 m, 3 specimens (LGBC); 25 km northeast of Barra de Navidad, 1 female, 3VIII.1978, Plitt & Schaffner Col., USNMENT 01488158(USNM); Guerrero: Hwy 200, 41 km NE Ixtapa, 1 specimen (ACMT); 1 male, VII-17,20-85 J.E. Wappes col. DPI_ FSCA 0 0 0 0 9719 (FSCA); Chiapas (new state record): Sumidero Canyon. 4000m, 1 female, 14.VI. 1987, E. Giesbert Col. DPI_ FSCA 0 0 0 0 8502 (FSCA); Santa Rosa, 2 males, USNMENT01488168/USNMENT 01488170; 25 mi SSW Vicente Guerrero, 1 male, 9.VI.1987, B. Ratcliffe & M. Jameson Cols. USNMENT 0 1488160 (USNM); Hwy 200, 41 km NE Ixtapa, 1 female, 17-20.VII.1985, J.E. Wappes Col. USNMENT 0 1488164 (USNM); Sinaloa: 3 Km e El Marmol, 1 female, VIII. 1983, E. Giesbert, col., DPI_ FSCA 0 0 0 0 9716 (FSCA); Playa Rd., +- 2 mi E No. Mazatlan Rd., Sin., 1 male, 8 Aug 1983 F. Hovore, col. DPI_ FSCA 0 0 0 0 9828 (FSCA); 1 male, USNMENT 0 1488166 (USNM). GUATEMALA, Nentón: Rio Lagarteros, 970m, 1 female, 1 male, 4.VI.1997, E Giesbert & J. Monzon cols. DPI_ FSCA 00009826 / DPI_ FSCA 0 0 0 0 9825 (FSCA). HONDURAS (new country record), El Pariso: vic Yuscaran, 1 female, 2-VI-1993, Skillman, Turnbow & Thomas cols. (FWSC); Francisco Morazon: 25.5 Km SSW Telanga, 1 male, 3-VI-1993, M.C. Thomas col. DPI_ FSCA 0 0 0 0 9712, (FSCA); Sta. Barbara: 1 male, 10.VII.1956, A.D. Benegas Col. USNMENT 0 1488171 (USNM); Comayagua: Siguatepeque, 1 male, 11.VII.1981, J.V. Mankins Col. USNMENT 0 1488172 (USNM). EL SALVADOR (new country record), La Union: Conchagua (Vol. Conchagua), 1 male, 27-29.V.1958, OL Cartwright Col., USNMENT 0 1488169 (USNM). NICARAGUA, Nueva Segovia: Cerro Jesus, ~ 1100m. 4 males and 1 female, 6-7.VI.2013, B. Raber, D Heffern & E. van den Berghe ( DHCO). Current geographical distribution. Ornithia mexicana: USA (southern Texas), MEXICO (Chiapas, Colima, Jalisco, Oaxaca, Quintana Roo, San Luis Potosí, Tamaulipas, Veracruz, Yucatán), GUATEMALA, HONDURAS, NICARAGUA, COSTA RICA, PANAMA. Ornithia zapotensis: MEXICO (Chiapas, Guerrero, Jalisco, Sinaloa), GUATEMALA, HONDURAS, EL SALVADOR, NICARAGUA. Remarks. Ornithia mexicana was first reported from the USA by Vogt (1949) who collected one specimen in Hidalgo County, TX in 1947. To the best of our knowledge, no additional specimens were collected in the USA until 2010 by the first author and B. T. Raber. As pointed out by Hovore et. al (1987), and confirmed here, the illustration by Linsley (1964) is that of O. zapotensis and not O. mexicana. Additionally, Linsley’s textual description of the male of O. mexicana describes the elytral maculation present on O. zapotensis. An image of one of the specimens collected in Texas is shown on BugGuide (2018).Published as part of Heffern, Daniel, Nascimento, Francisco E. De L. & Santos-Silva, Antonio, 2018, Descriptions, redescription, notes, and new ranks in American Cerambycidae (Coleoptera), pp. 59-80 in Zootaxa 4531 (1) on pages 77-78, DOI: 10.11646/zootaxa.4531.1.2, http://zenodo.org/record/261437
Author Profiling and Plagiarism Detection
The final publication is available at Springer via http://dx.doi.org/10.1007/978-3-319-25485-2_6In this chapter we introduce the topics that we will cover in the RuSSIR 2014 course on Author Profiling and Plagiarism Detection (APPD). Author profiling distinguishes between classes of authors studying how language is shared by classes of people. This task helps in identifying profiling aspects such as gender, age, native language, or even personality type. In case of the plagiarism detection task we are not interested in studying how language is shared. On the contrary, given a document we are interested in investigating if the writing style changes in order to unveil text inconsistencies, i.e., unexpected irregularities through the document such as changes in vocabulary, style and text complexity. In fact, when it is not possible to retrieve the source document(s) where plagiarism has been committed from, the intrinsic analysis of the suspicious document is the only way to find evidence of plagiarism. The difficulty in retrieving the source of plagiarism could be due to the fact that the documents are not available on the web or the plagiarised text fragments were obfuscated via paraphrasing or translation (in case the source document was in another language). In this overview, we also discuss the results of the shared tasks on author profiling (gender and age identification) and plagiarism detection that we help to organise at the PAN Lab on Uncovering Plagiarism, Authorship, and Social Software Misuse.The PAN shared tasks on author profil-ing and on plagiarism detection have been organised in the framework of the WIQ-EIIRSES project (Grant No. 269180) within the EC FP 7 Marie Curie People. The research work described in the paper was carried out in the framework of the DIANA-APPLICATIONS-Finding Hidden Knowledge in Texts: Applications (TIN2012-38603-C02-01) project, and the VLC/CAMPUS Microcluster on Multimodal Interaction inIntelligent Systems.Rosso, P. (2015). Author Profiling and Plagiarism Detection. En Information Retrieval. Springer. 229-250. https://doi.org/10.1007/978-3-319-25485-2_6S229250Argamon, S., Koppel, M., Fine, J., Shimoni, A.R.: Gender, genre, and writing style in formal written texts. TEXT 23, 321–346 (2003)Association of Teachers and Lecturers. School work plagued by plagiarism - ATL survey. Technical report, Association of Teachers and Lecturers, London, UK (2008). (Press release)Barrón-Cedeño, A.: On the mono- and cross-language detection of text re-use and plagiarism. Ph.D. thesis, Universitat Politènica de València (2012)Barrón-Cedeño, A., Rosso, P., Pinto, D., Juan, A.: On cross-lingual plagiarism analysis using a statistical model. In: Proceedings of the ECAI 2008 Workshop on Uncovering Plagiarism, Authorship and Social Software Misuse, PAN 2008 (2008)Barrón-Cedeño, A., Gupta, P., Rosso, P.: Methods for cross-language plagiarism detection. Knowl. Based Syst. 50, 11–17 (2013)Barrón-Cedeño, A., Vila, M., Martí, M., Rosso, P.: Plagiarism meets paraphrasing: insights for the next generation in automatic plagiarism detection. Comput. Linguist. 39(4), 917–947 (2013)Bogdanova, D., Rosso, P., Solorio, T.: Exploring high-level features for detecting cyberpedophilia. Comput. Speech Lang. 28(1), 108–120 (2014)Braschler, M., Harman, D.: Notebook papers of CLEF 2010 LABs and workshops. Padua, Italy (2010)Cappellato, L., Ferro, N., Halvey, M., Kraaij, W.: CLEF 2014 labs and workshops, notebook papers. In: CEUR Workshop Proceedings (CEUR-WS.org), ISSN 1613–0073 (2014). http://ceur-ws.org/Vol-1180/Comas, R., Sureda, J., Nava, C., Serrano, L.: Academic cyberplagiarism: a descriptive and comparative analysis of the prevalence amongst the undergraduate students at Tecmilenio University (Mexico) and Balearic Islands University (Spain). In: Proceedings of the International Conference on Education and New Learning Technologies (EDULEARN 2010), Barcelona (2010)Flesch, R.: A new readability yardstick. J. Appl. Psychol. 32(3), 221–233 (1948)Flores, E., Barrón-Cedeño, A., Rosso, P., Moreno, L.: Desocore: detecting source code re-use across programming languages. In: Proceedings of 12th International Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies, NAACL-2012, pp. 1–4, Montreal, Canada (2012)Flores, E., Barrón-Cedeño, A., Moreno, L., Rosso, P.: Uncovering source code re-use in large-scale programming environments. In: Computer Applications in Engineering and Education, Accepted (2014). doi: 10.1002/cae.21608Forner, P., Navigli, R., Tufis, D.: CLEF 2013 evaluation labs and workshop - working notes papers, 23–26 September. Valencia, Spain (2013)Franco-Salvador, M., Gupta, P., Rosso, P.: Cross-Language plagiarism detection using a multilingual semantic network. In: Braslavski, P., Kuznetsov, S.O., Kamps, J., Rüger, S., Agichtein, E., Segalovich, I., Yilmaz, E., Serdyukov, P. (eds.) ECIR 2013. LNCS, vol. 7814, pp. 710–713. Springer, Heidelberg (2013)Franco-Salvador, M., Gupta, P., Rosso, P.: Knowledge graphs as context models: improving the detection of cross-language plagiarism with paraphrasing. In: Ferro, N. (ed.) PROMISE Winter School 2013. LNCS, vol. 8173, pp. 227–236. Springer, Heidelberg (2014)Gollub, T., Stein, B., Burrows, S.: Ousting Ivory tower research: towards a web framework for providing experiments as a service. In: Hersh, B., Callan, J., Maarek, Y., Sanderson, M., (eds.) 35th International ACM Conference on Research and Development in Information Retrieval (SIGIR 2012), pp. 1125–1126. ACM, August 2012. ISBN 978-1-4503-1472-5. doi: 10.1145/2348283.2348501Gollub, T., Hagen, M., Michel, M., Stein, B.: From keywords to keyqueries: content descriptors for the web. In: Gurrin, C., Jones, G., Kelly, D., Kruschwitz, U., de Rijke, M., Sakai, T., Sheridan, P., (eds.) 36th International ACM Conference on Research and Development in Information Retrieval (SIGIR 2013), pp. 981–984. ACM (2013)Goswami, S., Sarkar, S., Rustagi, M.: Stylometric analysis of bloggers’ age and gender. In: Adar, E., Hurst, M., Finin, T., Glance, N.S., Nicolov, N., Tseng, B.L., (eds.) ICWSM. The AAAI Press (2009)Gressel, G., Hrudya, P., Surendran, K., Thara, S., Aravind, A., Prabaharan, P.: Ensemble Learning Approach for Author Profiling-Notebook for PAN at CLEF 2014. In: Cappellato, et al. [9]Grozea, C., Popescu, M.: ENCOPLOT - performance in the Second International Plagiarism Detection Challenge lab report for PAN at CLEF 2010. In: Braschler and Harman [8]Grozea, C., Gehl, C., Popescu, M.: ENCOPLOT: pairwise sequence matching in linear time applied to plagiarism detection. In: Stein et al., (ed.) Overview of the 1st International Competition on Plagiarism Detection, pp. 10–18 (2009)Gunning, R.: The Technique of Clear Writing. McGraw-Hill Int. Book Co, New York (1952)Gupta, P., Barrón-Cedeño, A., Rosso, P.: Cross-language high similarity search using a conceptual thesaurus. In: Catarci, T., Peñas, A., Santucci, G., Forner, P., Hiemstra, D. (eds.) CLEF 2012. LNCS, vol. 7488, pp. 67–75. Springer, Heidelberg (2012)Honore, A.: Some simple measures of richness of vocabulary. Assoc. Lit. Linguist. Comput. Bull. 7(2), 172–177 (1979)IEEE. A Plagiarism FAQ. http://www.ieee.org/publications_standards/publications/rights/plagiarism_FAQ.html (2008). Published: 2008; Last Accessed 25 November 2012Koppel, M., Argamon, S., Shimoni, A.R.: Automatically categorizing written texts by author gender. Lit. Linguist. Comput. 17(4), 401–412 (2002)Liau, Y., Vrizlynn, L.: Submission to the author profiling competition at pan-2014. In: Proceedings Recent Advances in Natural Language Processing III (2014). http://www.webis.de/research/events/pan-14Lopez-Monroy, A.P., Montes-Y-Gomez, M., Escalante, H.J., Villaseñor-Pineda, L., Villatoro-Tello, E.: INAOE’s participation at PAN 2013: author profiling task–notebook for PAN at CLEF 2013. In: Forner, et al. [14]Pastor López-Monroy, A., Montes y Gómez, M., Escalante, H.J., Villaseñor-Pineda, L.: Using Intra-profile information for author profiling-notebook for PAN at CLEF 2014. In: Cappellato, et al. [9]Maharjan, S., Shrestha, P., Solorio, T.: A simple approach to author profiling in MapReduce–notebook for PAN at CLEF 2014. In: Cappellato, et al. [9]Marquardt, J., Fanardi, G., Vasudevan, G., Moens, M.F., Davalos, S., Teredesai, A., De Cock, M.: Age and gender identification in social media-notebook for PAN at CLEF 2014. In: Cappellato, et al. [9]Martin, B.: Plagiarism: policy against cheating or policy for learning? Nexus (Newsl. Aust. Sociol. Assoc.) 16(2), 15–16 (2004)Mcnamee, P., Mayfield, J.: Character n-gram tokenization for european language text retrieval. Inf. Retr. 7(1), 73–97 (2004)Meina, M., Brodzinska, K., Celmer, B., Czokow, M., Patera, M., Pezacki, J., Wilk, M.: Ensemble-based classification for author profiling using various features-notebook for PAN at CLEF 2013. In: Forner, et al. [14]Eissen, S.M., Stein, B.: Intrinsic plagiarism detection. In: Tombros, A., Yavlinsky, A., Rüger, S.M., Tsikrika, T., Lalmas, M., MacFarlane, A. (eds.) ECIR 2006. LNCS, vol. 3936, pp. 565–569. Springer, Heidelberg (2006)Montes y Gómez, M., Gelbukh, A.F., López-López, A., Baeza-Yates, R.A.: Flexible comparison of conceptual graphs. In: Proceedings DEXA, pp. 102–111 (2001)Navigli, R., Ponzetto, S.P.: BabelNet: the automatic construction, evaluation and application of a wide-coverage multilingual semantic network. Artif. Intell. 193, 217–250 (2012)Nawab, R.M.A., Stevenson, M., Clough, P.: University of sheffield lab report for pan at clef 2010. In: Braschler and Harman [8]Nguyen, D., Gravel, R., Trieschnigg, D., Meder, T.: “how old do you think i am?”; a study of language and age in twitter. In: Proceedings of the Seventh International AAAI Conference on Weblogs and Social Media (2013)Oberreuter, G., Eiselt, A.: Submission to the 6th international competition on plagiarism detection, From Innovand.io, Chile (2014). http://www.webis.de/research/events/pan-14Och, F.J., Ney, H.: A systematic comparison of various statistical alignment models. Comput. Linguist. 29(1), 19–51 (2003)Palkovskii, Y., Belov, A.: Developing high-resolution universal multi-type N-Gram plagiarism detector-notebook for PAN at CLEF 2014. 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CEUR-WS.org (September 2009). http://ceur-ws.org/Vol-502Potthast, M., Barrón-Cedeño, A., Eiselt, A., Stein, B., Rosso, P.: Overview of the 2nd International Competition on Plagiarism Detection. In: Braschler and Harman [8]Potthast, M., Barrón-Cedeño, A., Eiselt, A., Stein, B., Rosso, P.: Overview of the 2nd international competition on plagiarism detection. In: Braschler, M., Harman, D., Pianta, E., (eds.) Working Notes Papers of the CLEF 2010 Evaluation Labs (September 2010) 2010. http://www.clef-initiative.eu/publication/working-notesPotthast, M., Barrón-Cedeño, A., Stein, B., Rosso, P.: Cross-language plagiarism detection. Lang. Resour. Eval. 45(1), 45–62 (2011)Potthast, M., Eiselt, A., Barrón-Cedeño, A., Stein, B., Rosso, P.: Overview of the 3rd international competition on plagiarism detection. In: Petras, V., Forner, P., Clough, P., (eds.) 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[9]Williams, K., Chen, H.H., Giles, C.: Supervised ranking for plagiarism source retrieval-notebook for PAN at CLEF 2014. In: Cappellato, et al. [9]Yule, G.: The Statistical Study of Literary Vocabulary. Cambridge University press, Cambridge (1944)Zubarev, D., Sochenkov, I.: Using sentence similarity measure for plagiarism source retrieval-notebook for PAN at CLEF 2014. In: Cappellato, L., et al. [9
Andraegoidus nigrofasciatus
<i>Andraegoidus nigrofasciatus</i> (Gory, 1831) <p> <i>Trachyderes nigrofasciatus</i> Gory, 1831: pl. 43, fig. 3.</p> <p> <i>Trachyderes variegatus</i> Perty, 1832: 88. <i>Syn. nov.</i></p> <p> <i>Andraegoidus variegatus</i>; Monné 2023a: 901 (cat.).</p> <p> <i>Trachyderes audouinii</i> Dupont, 1838: 2.</p> <p> <i>Trachyderes gloriosus</i> Dupont, 1838: 4.</p> <p> <i>Trachyderes variegatus</i> var. <i>biflavomaculatus</i> Tippmann, 1953: 323.</p> <p> <i>Trachyderes variegatus</i> var. <i>binigromaculatus</i> Tippmann, 1953: 321.</p> <p> <i>Trachyderes variegatus</i> var. <i>bisbiflavomaculatus</i> Tippmann, 1953: 322.</p> <p> <i>Trachyderes variegatus</i> var. <i>cordiger</i> Tippmann, 1953: 321.</p> <p> <i>Trachyderes variegatus</i> var. <i>dimidiatus</i> Tippmann, 1953: 321.</p> <p> <i>Trachyderes variegatus</i> var. <i>flavocinctus</i> Tippmann, 1953: 322.</p> <p> <i>Trachyderes variegatus</i> var. <i>malleri</i> Tippmann, 1953: 322.</p> <p> <b>Remarks.</b> <i>Trachyderes nigrofasciatus</i> was illustrated on plate 43 by Gory (1831). Therefore, it was made available through illustration. However, the date of this name was considered by a long time as being 1844. <i>Trachyderes variegatus</i> Perty, 1832 was described based on a specimen from Brazil (Minas Gerais). Ḩdepohl (1985) designated a specimen from Brazil (Mato Grosso) as a neotype of <i>T. variegatus</i>; the neotype was destroyed during the fire that completely devastated the MNRJ. With the neotype designation the type locality of the species became Rio Verde, which today is in Mato Grosso do Sul (see remarks in <i>Eburodacrys rubicunda</i>). Ḩdepohl (1985) also synonymized the seven varieties described by Tippmann (1953) and the two species described by Dupont (1838) with <i>Andraegoidus variegatus</i>. Gory (1844) reported (translated): “Note. When I communicated this insect to be figured here, I had not yet received Mr. Perty’s work, and I had given it the name of <i>T. nigro-fasciatus</i>. It is right to reinstate the name imposed on it by this author.” According to Bousquet (2016) on the work where Gory originally described <i>T. nigrofasciatus</i>: “This works contains 450 plates published in 45 livraisons, from 21 March 1829 to December 1837. The insects section contains 110 plates and the Coleoptera are on plates 3–51. Notices of publication for the Coleoptera plates are: … 42–44 [livr. 13]: March 1831 …” Notwithstanding Gory’s (1844) opinion, his 1831 <i>Andraegoidus nigrofasciatus</i> has priority over Perty’s 1832 synonym <i>A. variegatus</i> (ICZN 1999: Article 12.2.7). Preservation of the latter as valid through reversal of precedence as established in Article 23.9 of the Code is not possible because “nigrofasciatus” was used as for a variety of <i>Trachyderes variegatus</i> by Aurivillius (1912), Blackwelder (1946), and Tippmann (1953), so not complying with Art. 23.9.1.1’s demand that the senior synonym must not have been used after 1899. Furthermore, the junior synonym has not been used as frequently as demanded by Art. 23.9.1.2 (ICZN 1999) is not present (see Monné 2023a). Neither of the two mandatory conditions for reversal of precedence is thus met. Therefore, we invalidate <i>Trachyderes variegatus</i> Perty, 1832 as a junior synonym of <i>Trachyderes nigrofasciatus</i> Gory, 1831.</p>Published as part of <i>Monné, Miguel A., Santos-Silva, Antonio, Flechtmann, Carlos Alberto Hector & Olivier, Renan Da Silva, 2023, Brazilian fauna of Cerambycidae (Coleoptera): description of a new species and new records, pp. 451-476 in Zootaxa 5352 (4)</i> on page 458, DOI: 10.11646/zootaxa.5352.4.1, <a href="http://zenodo.org/record/8426368">http://zenodo.org/record/8426368</a>
Boundary Capabilities in MNCs: Knowledge Transformation for Creative Solution Development
This is the author accepted manuscript. The final version is available from Wiley via the DOI in this record.The management of knowledge across country units is critical to multinational corporations (MNCs). Building on the argument that boundary spanning leads to the development of creative problem solving outcomes, this study advances the concept of MNC knowledge transformation and examines its relationship with solution creativity. Using questionnaire data on 67 problem solving projects, we find that opportunity formation is an underlying mechanism linking MNC knowledge transformation to the development of creative solutions. These insights contribute to our understanding of boundary spanning in global organizations by substantiating MNC knowledge transformation and elaborating the relationship between boundary spanning and creative solution development. If successful at knowledge transformation, collaborators from across the MNC can construct previously unimagined opportunities for the generation of creative outcomes.This study was funded by the Irish Research Council with co-funding from the European
Commission (Marie-Curie Fellowship). We are very grateful for the insightful comments of
Phillip C. Nell, the three reviewers, editors and participants at the paper development
workshop at Ivey Business School
Accessing diverse knowledge for problem solving in the MNC: A network mobilization perspective
This is the author accepted manuscript. The final version is available from Wiley via the DOI in this record.Research summary
The fundamental challenge of problem solving is synthesizing diverse knowledge for solution development. This paper addresses the trade-off between knowledge diversity, i.e., approaching the most relevant individual to maximize the likelihood that s/he possesses diverse knowledge and the ability to access, i.e., recognize and assimilate this knowledge. We examine this trade-off in relation to managers in subsidiaries of multinational corporations (MNCs) and two types of diverse knowledge—novel knowledge and specialist expertise. We use a network mobilization perspective and arguments on network range within and across organizational boundaries, testing our hypotheses on a dataset of 838 ties from 120 managers leading problem solving projects. Our study offers implications for the knowledge-based view of the MNC as well as the problem solving perspective in strategy.
Managerial summary
We examine where managers in subsidiaries of multinational corporations (MNCs) access knowledge to solve non-routine problems and, thus, create new solutions for the firm. When accessing knowledge managers faces the challenge of, on the one hand, reaching to individuals holding diverse knowledge, while, on the other hand, the need to be able to integrate this knowledge. We find that accessing network ties from an MNC unit in another country location but same function increases the likelihood of accessing novel knowledge. Whereas, accessing network ties from another function in an MNC unit located in another country and from an external organization increases the chances of accessing specialist expertise. Overall, we provide insights for problem solvers in organizations, notably subsidiary managers.Research for this article was supported by the Irish Research Council with co-funding from the European Commission and Vienna University of Economics and Business (WU)
International electronic health record-derived post-acute sequelae profiles of COVID-19 patients
The risk profiles of post-acute sequelae of COVID-19 (PASC) have not been well characterized in multi-national settings with appropriate controls. We leveraged electronic health record (EHR) data from 277 international hospitals representing 414,602 patients with COVID-19, 2.3 million control patients without COVID-19 in the inpatient and outpatient settings, and over 221 million diagnosis codes to systematically identify new-onset conditions enriched among patients with COVID-19 during the post-acute period. Compared to inpatient controls, inpatient COVID-19 cases were at significant risk for angina pectoris (RR 1.30, 95% CI 1.09–1.55), heart failure (RR 1.22, 95% CI 1.10–1.35), cognitive dysfunctions (RR 1.18, 95% CI 1.07–1.31), and fatigue (RR 1.18, 95% CI 1.07–1.30). Relative to outpatient controls, outpatient COVID-19 cases were at risk for pulmonary embolism (RR 2.10, 95% CI 1.58–2.76), venous embolism (RR 1.34, 95% CI 1.17–1.54), atrial fibrillation (RR 1.30, 95% CI 1.13–1.50), type 2 diabetes (RR 1.26, 95% CI 1.16–1.36) and vitamin D deficiency (RR 1.19, 95% CI 1.09–1.30). Outpatient COVID-19 cases were also at risk for loss of smell and taste (RR 2.42, 95% CI 1.90–3.06), inflammatory neuropathy (RR 1.66, 95% CI 1.21–2.27), and cognitive dysfunction (RR 1.18, 95% CI 1.04–1.33). The incidence of post-acute cardiovascular and pulmonary conditions decreased across time among inpatient cases while the incidence of cardiovascular, digestive, and metabolic conditions increased among outpatient cases. Our study, based on a federated international network, systematically identified robust conditions associated with PASC compared to control groups, underscoring the multifaceted cardiovascular and neurological phenotype profiles of PASC
Search for modulations of the solar 7Be flux in the next-generation neutrino observatory LENA
A next-generation liquid-scintillator detector will be able to perform high-statistics measurements of the solar neutrino flux. In LENA, solar 7Be neutrinos are expected to cause 1.7×104 electron recoil events per day in a fiducial volume of 35 kilotons. Based on this signal, a search for periodic modulations on a subpercent level can be conducted, surpassing the sensitivity of current detectors by at least a factor of 20. The range of accessible periods reaches from several minutes, corresponding to modulations induced by helioseismic g-modes, to tens of years, allowing to study long-term changes in solar fusion rates
Stultutragus tippmanni Bezark & Martins, 2012, sp. nov.
Stultutragus tippmanni sp. nov. (Figs 12–14) Rhinotragus bizonatus ab. rufithorax Tippmann, 1960: 121. Diagnosis. Stultutragus tippmanni sp. nov. is similar to S. nigricornis (Fisher, 1947), S. endoluteus Bezark et al. (2011), and S. poecilus (Bates, 1873), but differs as follows: pronotum without dark maculae; distal area of peduncle of meso- and metafemora dark-brown; ventrite V of male slightly elevated laterally. In S. nigricornis, S. endoluteus, and S. poecilus the pronotum often with dark maculae (sometimes absent in the former), the peduncle of meso- and metafemora are wholly yellowish, and ventrite V of male is distinctly elevated laterally. Etymology. The epithet is dedicated to Friedrich F. Tippmann. Male (Figs 12–14)—The following orange: pro- and mesothorax (in the former, except on anterior edge, that is brown), base of metathorax, distal fourth of metepisterna, coxae, trochanters, peduncle of profemora, nearly all lateral and ventral surface of clavate portion of profemora, nearly all of the peduncle of mesofemora, basal two thirds of peduncle of metafemora. The following black: head, remaining surface of metasternum and metepisterna, three elytral bands (one basal; one on middle; the last covering apex). The following dark-brown: scape, pedicel, antennomere III, dark parts of femora, tibiae, tarsi, nearly all surface of ventrites. The following brown: dorsal surface of antennomeres IV–VI, distal half of antennomeres VII–XI, apex of ventrites I and II. Elytra with two yellowish areas: the first on basal half, from epipleura to suture, almost reaches the scutellum along suture; the second on distal half, also from epipleura to suture, pentagonal. Dorsal surface of head moderately coarsely, abundantly punctate, except two irregular areas near distal margin of inferior ocular lobes; pubescence short, sparse, longer between upper ocular lobes and prothorax. Clypeus with pubescence very short, sparse, with one very long seta on each side. Labrum with short, moderately abundant setae on distal portion, and with one long seta on each side. Outer surface of mandibles with short, sparse setae, mixed with two long setae. Laterally, below inferior ocular lobes, with long setae. Ventral surface finely transversely sulcate, with moderately short, sparse setae. Scape, pedicel, and antennomeres III–VI with long, dark, thick setae. Pronotum pubescent (slightly conspicuous), mixed with long setae. Basal two-thirds of prosternum very shortly pubescent; distal third, shining, glabrous and shallowly punctate. Elytra with some short setae on base. Metasternum and metepisterna pubescent. Ventrites pubescent. Pronotal punctation moderately coarse, very abundant. Elytra coarsely, abundantly punctate. Length of area between base of inferior ocular lobe and apex of labrum equal to 0.7 times length of one inferior ocular lobe in frontal view. Distance between inferior ocular lobes equal to 0.1 times length of one lobe in frontal view. Antennae as long as 1.1 times elytral length; apex of antennomere XI reaches about base of distal elytral fourth; antennomeres III–V filiform, slightly widest at apex; antennomeres VI–VII moderately enlarged from base towards apex; antennal club not well marked. Elytra reach abdominal apex, slightly dehiscent at sutural fourth; elytral apex obliquely truncate, with two spines (the external somewhat longer). Apex of metafemora surpasses abdominal apex. Metatarsomere I about 1.25 times longer than II–III together. Lateral of ventrite V slightly elevated. Female. Distance between inferior ocular lobes equal to 0.55 times the length of one inferior lobe in frontal view. Antennae as long as elytra. Variation. Male: metepisterna wholly black; The following orange: metacoxae brown; peduncle of profemora and light part of mesofemora yellowish; middle and distal dark band of elytra, or only the distal, dark-brown; distal half of antennomere III brown; ventrites I–II reddish-brown; antennomere IV brownish; basal two thirds of antennomeres V–VI wholly orange. Dimensions in mm (male/female). Total length (from mandibular apex to abdominal apex), 7.5–9.1 / 8.4–9.3; prothorax: length, 1.5–1.8 / 1.7–1.8; anterior width, 0.9–1.1 / 1.1–1.2; posterior width, 1.1–1.3 / 1.3–1.4; humeral width, 1.4–1.6 / 1.6–1.8; elytral length, 5.1 –6.0/ 5.8–6.1. Length of holotype: 8.9. Type material. Holotype male, from BRAZIL, São Paulo: São Paulo (Saúde), I. 5.1918, Melzer col. (MZSP). Paratypes – BRAZIL, São Paulo: São Paulo (Saúde), 3 males, 2 females, I. 1.1918, Melzer col. (MZSP); (Jabaquara), XI.04.1942, “ holotype male of Rhinotragus bizonatus ab. rufithorax, ex col. Zellibor (USNM); male, XII. 1943, ex col. Zellibor (MZSP); female, I. 1945, ex col. Zellibor (MZSP). Key. Stultutragus tippmanni can be included in the alternative of couplet “ 9 ”, from Bezark et al. (2011): 9 (8). Peduncle of metafemora partially dark; ventrite V slightly elevated laterally. Brazil (São Paulo)....... S. tippmanni sp. nov. Peduncle of metafemora wholly yellowish; ventrite V distinctly elevated laterally.............................. 9 a / 9 b 9 a. Anterior margin of the pronotum not preceded by narrow furrow. Brazil (Espírito Santo to Rio Grande do Sul), Argentina, (Misiones), Uruguay................................................................ S. poecilus (Bates, 1873) 9 b. Anterior margin of the pronotum preceded by narrow furrow. Brazil (Rondônia, Bahia, Distrito Federal, Goiás, São Paulo, Santa Catarina)................................................................. S. nigricornis (Fisher, 1947) Remarks. This new species was described by Tippmann (1960) as an aberration of Rhinotragus bizonatus. The aberration “ rufithorax ” does not agree with R. bizonatus, and also is not a Rhinotragus. According to ICZN (1999: Article 45.6.2.): “it is deemed to be infrasubspecific if its author used one of the terms "aberration", "ab." or "morph”. Thus, as Tippmann (1960) proposed the “name” as an aberration, it has no nomenclatural status (see ICZN, 1999: Articles 45.5 and 45.6). Tippmann wrote on the “ paratype ” female (translation): “ Paratype: [female symbol], from the same locality, 7.XI. 1944. H. Zellibor leg. In the collection H. Zellibor, S. Paulo.” Zellibor’s Collection was bought by Carlos Alberto Campos Seabra. This latter is currently deposited in the MNRJ. However, Dr. Miguel A. Monné (personal communication) said that the specimen is not there.Published as part of Bezark, Antonio Santos-Silva Larry G. & Martins, Ubirajara R., 2012, New genera and species of Neotropical Rhinotragini (Coleoptera, Cerambycidae, Cerambycinae), pp. 66-80 in Zootaxa 3571 on pages 73-74, DOI: 10.5281/zenodo.20898
