Adaptive trajectory planning for flight management systems

Current Flight Management Systems (FMS) can autonomously fly an aircraft from takeoff through landing but may not provide robust operation to anomalous events. We present an adaptive trajectory planner capable of dynamically adjusting its world model and re-computing feasible flight trajectories in response to changes in aircraft performance characteristics. To demonstrate our approach, we consider the class of situations in which an emergency landing at a nearby airport is desired (or required) for safety considerations. Our system incorporates a constraint-based search engine to select and prioritize emergency landing sites, then it synthesizes a waypoint-based trajectory to the best airport based on post-anomaly flight dynamics. We present an engine failure/fuel starvation case study and illustrate the utility of our approach during a simulated thrusting power failure for a B-747 over the Bay Area

Limits on the production of scalar leptoquarks from Z (0) decays at LEP

A search has been made for pairs and for single production of scalar leptoquarks of the first and second generations using a data sample of 392000 Z0 decays from the DELPHI detector at LEP 1. No signal was found and limits on the leptoquark mass, production cross section and branching ratio were set. A mass limit at 95% confidence level of 45.5 GeV/c2 was obtained for leptoquark pair production. The search for the production of a single leptoquark probed the mass region above this limit and its results exclude first and second generation leptoquarks D0 with masses below 65 GeV/c2 and 73 GeV/c2 respectively, at 95% confidence level, assuming that the D0lq Yukawa coupling alpha(lambda) is equal to the electromagnetic one. An upper limit is also given on the coupling alpha(lambda) as a function of the leptoquark mass m(D0)

Global Retinoblastoma Presentation and Analysis by National Income Level

Importance: Early diagnosis of retinoblastoma, the most common intraocular cancer, can save both a child's life and vision. However, anecdotal evidence suggests that many children across the world are diagnosed late. To our knowledge, the clinical presentation of retinoblastoma has never been assessed on a global scale. Objectives: To report the retinoblastoma stage at diagnosis in patients across the world during a single year, to investigate associations between clinical variables and national income level, and to investigate risk factors for advanced disease at diagnosis. Design, Setting, and Participants: A total of 278 retinoblastoma treatment centers were recruited from June 2017 through December 2018 to participate in a cross-sectional analysis of treatment-naive patients with retinoblastoma who were diagnosed in 2017. Main Outcomes and Measures: Age at presentation, proportion of familial history of retinoblastoma, and tumor stage and metastasis. Results: The cohort included 4351 new patients from 153 countries; the median age at diagnosis was 30.5 (interquartile range, 18.3-45.9) months, and 1976 patients (45.4) were female. Most patients (n = 3685 84.7%) were from low-and middle-income countries (LMICs). Globally, the most common indication for referral was leukocoria (n = 2638 62.8%), followed by strabismus (n = 429 10.2%) and proptosis (n = 309 7.4%). Patients from high-income countries (HICs) were diagnosed at a median age of 14.1 months, with 656 of 666 (98.5%) patients having intraocular retinoblastoma and 2 (0.3%) having metastasis. Patients from low-income countries were diagnosed at a median age of 30.5 months, with 256 of 521 (49.1%) having extraocular retinoblastoma and 94 of 498 (18.9%) having metastasis. Lower national income level was associated with older presentation age, higher proportion of locally advanced disease and distant metastasis, and smaller proportion of familial history of retinoblastoma. Advanced disease at diagnosis was more common in LMICs even after adjusting for age (odds ratio for low-income countries vs upper-middle-income countries and HICs, 17.92 95% CI, 12.94-24.80, and for lower-middle-income countries vs upper-middle-income countries and HICs, 5.74 95% CI, 4.30-7.68). Conclusions and Relevance: This study is estimated to have included more than half of all new retinoblastoma cases worldwide in 2017. Children from LMICs, where the main global retinoblastoma burden lies, presented at an older age with more advanced disease and demonstrated a smaller proportion of familial history of retinoblastoma, likely because many do not reach a childbearing age. Given that retinoblastoma is curable, these data are concerning and mandate intervention at national and international levels. Further studies are needed to investigate factors, other than age at presentation, that may be associated with advanced disease in LMICs. © 2020 American Medical Association. All rights reserved

Charged particle multiplicity distributions in Z0 hadronic decays

This paper presents an analysis of the multiplicity distributions of charged particles produced in Z0 hadronic decays in the DELPHI detector. It is based on a sample of 25364 events. The average multiplicity is <nch>=20.71±0.04(stat)±0.77(syst) and the dispersion D=6.28±0.03(stat)±0.43(syst). The data are compared with the results at lower energies and with the predictions of phenomenological models. The Lund parton shower model describes the data reasonably well. The multiplicity distributions show approximate KNO-scaling. They also show positive forward-backward correlations that are strongest in the central region of rapidity and for particles of opposite charge. © 1991 Springer-Verlag

SEARCH FOR LIGHT NEUTRAL HIGGS PARTICLES PRODUCED IN Z0 DECAYS

A search for the neutral Higgs boson in Z0-decays has been performed using the DELPHI detector at the Large Electron Positron collider (LEP) at CERN. We looked for the decay of Z0 into a neutral Higgs particle and a pair of fermions. No events fulfilled the criteria for H0-production. Our results, which are based on an integrated luminosity of 530 nb-1, exclude a minimal Standard Model Higgs boson with a mass in the range 210 MeV/c2 to 14 GeV/c2 at 95% confidence level.0SCOPUS: ar.jinfo:eu-repo/semantics/publishe

SEARCH FOR THE t AND b-prime QUARKS IN HADRONIC DECAYS OF THE Z0 BOSON

We present a search for the third generation up type quark t and a possible fourth down type quark b' in hadronic Z0 decays observed in DELPHI at the LEP collider. For any scenario with a decay through the charged current or into a charged Higgs with a mass at least 6 GeV/c2 below the t and 3 GeVc2 below the b' mass, we set a lower limit for the t quark mass at 44.0 GeV/c2 and for the b' mass at 44.5 GeV/c2. For specific scenarios the mass limits are slightly higher, e.g. for charged current decays the limits are 44.5 and 45.0 GeV/c2 respectively, where all limits are given at a 95% confidence level. © 1990.0SCOPUS: ar.jinfo:eu-repo/semantics/publishe

Search for pair production of neutral Higgs bosons in Z0^0 decays

none486P. Abreu;W. Adam;F. Adami;T. Adye;G.D. Alekseev;J.V. Allaby;P. Allen;S. Almehed;F. Alted;S.J. Alvsvaag;U. Amaldi;E. Anassontzis;W.D. Apel;B. Asman;C. Astor Ferreres;J.E. Augustin;A. Augustinus;P. Baillon;P. Bambade;F. Barao;G. Barbiellini;D.Yu. Bardin;A. Baroncelli;O. Barring;W. Bartl;M.J. Bates;M. Baubillier;K.H. Becks;C.J. Beeston;P. Beilliere;I. Belokopytov;P. Beltran;D. Benedic;J.M. Benlloch;M. Berggren;D. Bertrand;S. Biagi;F. Bianchi;J.H. Bibby;M.S. Bilenky;P. Billoir;J. Bjarne;D. Bloch;P.N. Bogolubov;D. Bollini;T. Bolognese;M. Bonapart;P.S.L. Booth;M. Boratav;P. Borgeaud;H. Borner;C. Bosio;O. Botner;B. Bouquet;M. Bozzo;S. Braibant;P. Branchini;K.D. Brand;R.A. Brenner;C. Bricman;R.C.A. Brown;N. Brummer;J.M. Brunet;L. Bugge;T. Buran;H. Burmeister;C.M. Buttar;J.A.M.A. Buytaert;M. Caccia;M. Calvi;A.J. Camacho Rozas;J.E. Campagne;A. Campion;T. Camporesi;V. Canale;F. Cao;L. Carroll;C. Caso;E. Castelli;M.V. Castillo Gimenez;A. Cattai;F.R. Cavallo;L. Cerrito;P. Charpentier;P. Checchia;G.A. Chelkov;L. Chevalier;P.V. Chliapnikov;V. Chorowicz;R. Cirio;M.P. Clara;J.L. Contreras;R. Contri;G. Cosme;F. Couchot;H.B. Crawley;D. Crennell;M. Cresti;G. Crosetti;N. Crosland;M. Crozon;J. Cuevas Maestro;S. Czellar;S. Dagoret;E. Dahl-Jensen;B. D'Almagne;M. Dam;G. Damgaard;G. Darbo;E. Daubie;M. Davenport;P. David;A. De Angelis;M. De Beer;H. De Boeck;W. De Boer;C. De Clercq;M.D.M. De Fez Laso;N. De Groot;C. De La Vaissiere;B. De Lotto;C. Defoix;D. Delikaris;P. Delpierre;N. Demaria;A. De Min;L. Di Ciaccio;A.N. Diddens;H. Dijkstra;F. Djama;J. Dolbeau;K. Doroba;M. Dracos;J. Drees;M. Dris;W. Dulinski;R. Dzhelyadin;D.N. Edwards;L.O. Eek;P.A.M. Eerola;T. Ekelof;G. Ekspong;J.P. Engel;V. Falaleev;A. Fenyuk;M. Fernandez Alonso;A. Ferrer;S. Ferroni;T.A. Filippas;A. Firestone;H. Foeth;E. Fokitis;F. Fontanelli;H. Forsbach;B. Franek;K.E. Fransson;P. Frenkiel;D.C. Fries;R. Fruhwirth;F. Fulda-Quenzer;H. Fuerstenau;J. Fuster;J.M. Gago;G. Galeazzi;D. Gamba;U. Gasparini;P. Gavillet;S. Gawne;E.N. Gazis;P. Giacomelli;K.W. Glitza;R. Gokieli;V.M. Golovatyuk;A. Goobar;G. Gopal;M. Gorski;V. Gracco;A. Grant;F. Grard;E. Graziani;M.H. Gros;G. Grosdidier;B. Grossetete;S. Gumenyuk;J. Guy;F. Hahn;M. Hahn;S. Haider;Z. Hajduk;A. Hakansson;A. Hallgren;K. Hamacher;G. Hamel De Monchenault;J.F. Harris;B. Heck;I. Herbst;J.J. Hernandez;P. Herquet;H. Herr;E. Higon;H.J. Hilke;T. Hofmokl;R. Holmes;S.O. Holmgren;J.E. Hooper;M. Houlden;J. Hrubec;P.O. Hulth;K. Hultqvist;D. Husson;B.D. Hyams;P. Ioannou;P.S. Iversen;J.N. Jackson;P. Jalocha;G. Jarlskog;P. Jarry;B. Jean-Marie;E.K. Johansson;M. Jonker;L. Jonsson;P. Juillot;R.B. Kadyrov;G. Kalkanis;G. Kalmus;G. Kantardjian;F. Kapusta;P. Kapusta;S. Katsanevas;E.C. Katsoufis;R. Keranen;J. Kesteman;B.A. Khomenko;B. King;N.J. Kjaer;H. Klein;W. Klempt;A. Klovning;P. Kluit;J.H. Koehne;B. Koene;P. Kokkinias;M. Kopf;M. Koratzinos;K. Korcyl;A.V. Korytov;B. Korzen;C. Kourkoumelis;T. Kreuzberger;J. Krolikowski;U. Kruener-Marquis;W. Krupinski;W. Kucewicz;K. Kurvinen;M.I. Laakso;C. Lambropoulos;J.W. Lamsa;L. Lanceri;V. Lapin;J.P. Laugier;R. Lauhakangas;P. Laurikainen;G. Leder;F. Ledroit;J. Lemonne;G. Lenzen;V. Lepeltier;A. Letessier-Selvon;E. Lieb;E. Lillestol;E. Lillethun;J. Lindgren;I. Lippi;R. Llosa;B. Loerstad;M. Lokajicek;J.G. Loken;A. Lopez;M.A. Lopez Aguera;D. Loukas;J.J. Lozano;R. Lucock;B. Lund-Jensen;P. Lutz;L. Lyons;G. Maehlum;J. Maillard;A. Maltezos;F. Mandl;J. Marco;J.C. Marin;A. Markou;L. Mathis;C. Matteuzzi;G. Matthiae;M. Mazzucato;M. Mc Cubbin;R. Mc Kay;E. Menichetti;C. Meroni;W.T. Meyer;W.A. Mitaroff;G.V. Mitselmakher;U. Mjoernmark;T. Moa;R. Moeller;K. Moenig;M.R. Monge;P. Morettini;H. Mueller;H. Muller;G. Myatt;F. Naraghi;U. Nau-Korzen;F.L. Navarria;P. Negri;B.S. Nielsen;M. Nigro;V. Nikolaenko;V. Obraztsov;R. Orava;A. Ouraou;R. Pain;K. Pakonski;H. Palka;T. Papadopoulou;L. Pape;P. Pasini;A. Passeri;M. Pegoraro;V. Perevozchikov;M. Pernicka;M. Pimenta;O. Pingot;C. Pinori;A. Pinsent;M.E. Pol;B. Poliakov;G. Polok;P. Poropat;P. Privitera;A. Pullia;J. Pyyhtia;A.A. Rademakers;D. Radojicic;S. Ragazzi;W.H. Range;P.N. Ratoff;A.L. Read;N.G. Redaelli;M. Regler;D. Reid;P.B. Renton;L.K. Resvanis;F. Richard;J. Ridky;G. Rinaudo;I. Roditi;A. Romero;P. Ronchese;E. Rosenberg;U. Rossi;E. Rosso;P. Roudeau;T. Rovelli;V. Ruhlmann;A. Ruiz;H. Saarikko;Y. Sacquin;E. Sanchez;J. Sanchez;E. Sanchis;M. Sannino;M. Schaeffer;H. Schneider;F. Scuri;A. Sebastia;A.M. Segar;R. Sekulin;M. Sessa;G. Sette;R. Seufert;R.C. Shellard;P. Siegrist;S. Simonetti;F. Simonetto;A.N. Sissakian;T.B. Skaali;J. Skeens;G. Skjevling;G. Smadja;G.R. Smith;R. Sosnowski;K. Spang;T. Spassoff;E. Spiriti;S. Squarcia;H. Staeck;C. Stanescu;G. Stavropoulos;F. Stichelbaut;A. Stocchi;J. Strauss;R. Strub;C. Stubenrauch;M. Szczekowski;M. Szeptycka;P. Szymanski;S. Tavernier;E. Tchernyaev;G. Theodosiou;A. Tilquin;J. Timmermans;V.G. Timofeev;L.G. Tkatchev;D.Z. Toet;A.K. Topphol;L. Tortora;D. Treille;U. Trevisan;G. Tristram;C. Troncon;E.N. Tsyganov;M. Turala;R. Turchetta;M.L. Turluer;T. Tuuva;I.A. Tyapkin;M. Tyndel;S. Tzamarias;F. Udo;S. Ueberschaer;V.A. Uvarov;G. Valenti;E. Vallazza;J.A. Valls;G.W. Van Apeldoorn;P. Van Dam;W.K. Van Doninck;N. Van Eijndhoven;C. Vander Velde;J. Varela;P. Vaz;G. Vegni;M.E. Veitch;J. Velasco;L. Ventura;W. Venus;F. Verbeure;L.S. Vertogradov;L. Vibert;D. Vilanova;N.K. Vishnevskiy;E.V. Vlasov;A.S. Vodopianov;M. Vollmer;G. Voulgaris;M. Voutilainen;V. Vrba;H. Wahlen;C. Walck;F. Waldner;M. Wayne;P. Weilhammer;J. Werner;A.M. Wetherell;J.H. Wickens;J. Wikne;W.S.C. Williams;M. Winter;D. Wormald;G. Wormser;K. Woschnagg;N. Yamdagni;P. Yepes;A. Zaitsev;A. Zalewska;P. Zalewski;P.I. Zarubin;E. Zevgolatakos;G. Zhang;N.I. Zimin;R. Zitoun;R. Zukanovich Funchal;G. Zumerle;J. ZunigaP., Abreu; W., Adam; F., Adami; T., Adye; G. D., Alekseev; J. V., Allaby; P., Allen; S., Almehed; F., Alted; S. J., Alvsvaag; U., Amaldi; E., Anassontzis; W. D., Apel; B., Asman; C., Astor Ferreres; J. E., Augustin; A., Augustinus; P., Baillon; P., Bambade; F., Barao; G., Barbiellini; Bardin, D. Y. u.; A., Baroncelli; O., Barring; W., Bartl; M. J., Bates; M., Baubillier; K. H., Becks; C. J., Beeston; P., Beilliere; I., Belokopytov; P., Beltran; D., Benedic; J. M., Benlloch; M., Berggren; D., Bertrand; S., Biagi; F., Bianchi; J. H., Bibby; M. S., Bilenky; P., Billoir; J., Bjarne; D., Bloch; P. N., Bogolubov; D., Bollini; T., Bolognese; M., Bonapart; P. S. L., Booth; M., Boratav; P., Borgeaud; H., Borner; C., Bosio; O., Botner; B., Bouquet; Bozzo, Marco; S., Braibant; P., Branchini; K. D., Brand; R. A., Brenner; C., Bricman; R. C. A., Brown; N., Brummer; J. M., Brunet; L., Bugge; T., Buran; H., Burmeister; C. M., Buttar; J. A. M. A., Buytaert; M., Caccia; M., Calvi; A. J., Camacho Rozas; J. E., Campagne; A., Campion; T., Camporesi; V., Canale; F., Cao; L., Carroll; Caso, Carlo; E., Castelli; M. V., Castillo Gimenez; A., Cattai; F. R., Cavallo; L., Cerrito; P., Charpentier; P., Checchia; G. A., Chelkov; L., Chevalier; P. V., Chliapnikov; V., Chorowicz; R., Cirio; M. P., Clara; J. L., Contreras; Contri, Roberto; G., Cosme; F., Couchot; H. B., Crawley; D., Crennell; M., Cresti; G., Crosetti; N., Crosland; M., Crozon; J., Cuevas Maestro; S., Czellar; S., Dagoret; E., Dahl Jensen; B., D'Almagne; M., Dam; G., Damgaard; G., Darbo; E., Daubie; M., Davenport; P., David; A., De Angelis; M., De Beer; H., De Boeck; W., De Boer; C., De Clercq; M. D. M., De Fez Laso; N., De Groot; C., De La Vaissiere; B., De Lotto; C., Defoix; D., Delikaris; P., Delpierre; N., Demaria; A., De Min; L., Di Ciaccio; A. N., Diddens; H., Dijkstra; F., Djama; J., Dolbeau; K., Doroba; M., Dracos; J., Drees; M., Dris; W., Dulinski; R., Dzhelyadin; D. N., Edwards; L. O., Eek; P. A. M., Eerola; T., Ekelof; G., Ekspong; J. P., Engel; V., Falaleev; A., Fenyuk; M., Fernandez Alonso; A., Ferrer; Ferroni, Sergio; T. A., Filippas; A., Firestone; H., Foeth; E., Fokitis; Fontanelli, Flavio; H., Forsbach; B., Franek; K. E., Fransson; P., Frenkiel; D. C., Fries; R., Fruhwirth; F., Fulda Quenzer; H., Fuerstenau; J., Fuster; J. M., Gago; G., Galeazzi; D., Gamba; U., Gasparini; P., Gavillet; S., Gawne; E. N., Gazis; P., Giacomelli; K. W., Glitza; R., Gokieli; V. M., Golovatyuk; A., Goobar; G., Gopal; M., Gorski; Gracco, Valerio; A., Grant; F., Grard; E., Graziani; M. H., Gros; G., Grosdidier; B., Grossetete; S., Gumenyuk; J., Guy; F., Hahn; M., Hahn; S., Haider; Z., Hajduk; A., Hakansson; A., Hallgren; K., Hamacher; G., Hamel De Monchenault; J. F., Harris; B., Heck; I., Herbst; J. J., Hernandez; P., Herquet; H., Herr; E., Higon; H. J., Hilke; T., Hofmokl; R., Holmes; S. O., Holmgren; J. E., Hooper; M., Houlden; J., Hrubec; P. O., Hulth; K., Hultqvist; D., Husson; B. D., Hyams; P., Ioannou; P. S., Iversen; J. N., Jackson; P., Jalocha; G., Jarlskog; P., Jarry; B., Jean Marie; E. K., Johansson; M., Jonker; L., Jonsson; P., Juillot; R. B., Kadyrov; G., Kalkanis; G., Kalmus; G., Kantardjian; F., Kapusta; P., Kapusta; S., Katsanevas; E. C., Katsoufis; R., Keranen; J., Kesteman; B. A., Khomenko; B., King; N. J., Kjaer; H., Klein; W., Klempt; A., Klovning; P., Kluit; J. H., Koehne; B., Koene; P., Kokkinias; M., Kopf; M., Koratzinos; K., Korcyl; A. V., Korytov; B., Korzen; C., Kourkoumelis; T., Kreuzberger; J., Krolikowski; U., Kruener Marquis; W., Krupinski; W., Kucewicz; K., Kurvinen; M. I., Laakso; C., Lambropoulos; J. W., Lamsa; L., Lanceri; V., Lapin; J. P., Laugier; R., Lauhakangas; P., Laurikainen; G., Leder; F., Ledroit; J., Lemonne; G., Lenzen; V., Lepeltier; A., Letessier Selvon; E., Lieb; E., Lillestol; E., Lillethun; J., Lindgren; I., Lippi; R., Llosa; B., Loerstad; M., Lokajicek; J. G., Loken; A., Lopez; M. A., Lopez Aguera; D., Loukas; J. J., Lozano; R., Lucock; B., Lund Jensen; P., Lutz; L., Lyons; G., Maehlum; J., Maillard; A., Maltezos; F., Mandl; J., Marco; J. C., Marin; A., Markou; L., Mathis; C., Matteuzzi; G., Matthiae; M., Mazzucato; M., Mc Cubbin; R., Mc Kay; E., Menichetti; C., Meroni; W. T., Meyer; W. A., Mitaroff; G. V., Mitselmakher; U., Mjoernmark; T., Moa; R., Moeller; K., Moenig; Monge, MARIA ROBERTA; P., Morettini; H., Mueller; H., Muller; G., Myatt; F., Naraghi; U., Nau Korzen; F. L., Navarria; P., Negri; B. S., Nielsen; M., Nigro; V., Nikolaenko; V., Obraztsov; R., Orava; A., Ouraou; R., Pain; K., Pakonski; H., Palka; T., Papadopoulou; L., Pape; P., Pasini; A., Passeri; M., Pegoraro; V., Perevozchikov; M., Pernicka; M., Pimenta; O., Pingot; C., Pinori; A., Pinsent; M. E., Pol; B., Poliakov; G., Polok; P., Poropat; P., Privitera; A., Pullia; J., Pyyhtia; A. A., Rademakers; D., Radojicic; S., Ragazzi; W. H., Range; P. N., Ratoff; A. L., Read; N. G., Redaelli; M., Regler; D., Reid; P. B., Renton; L. K., Resvanis; F., Richard; J., Ridky; G., Rinaudo; I., Roditi; A., Romero; P., Ronchese; E., Rosenberg; U., Rossi; E., Rosso; P., Roudeau; T., Rovelli; V., Ruhlmann; A., Ruiz; H., Saarikko; Y., Sacquin; E., Sanchez; J., Sanchez; E., Sanchis; Sannino, Mario; M., Schaeffer; H., Schneider; F., Scuri; A., Sebastia; A. M., Segar; R., Sekulin; M., Sessa; Sette, Giuseppe; R., Seufert; R. C., Shellard; P., Siegrist; S., Simonetti; F., Simonetto; A. N., Sissakian; T. B., Skaali; J., Skeens; G., Skjevling; G., Smadja; G. R., Smith; R., Sosnowski; K., Spang; T., Spassoff; E., Spiriti; Squarcia, Sandro; H., Staeck; C., Stanescu; G., Stavropoulos; F., Stichelbaut; A., Stocchi; J., Strauss; R., Strub; C., Stubenrauch; M., Szczekowski; M., Szeptycka; P., Szymanski; S., Tavernier; E., Tchernyaev; G., Theodosiou; A., Tilquin; J., Timmermans; V. G., Timofeev; L. G., Tkatchev; D. Z., Toet; A. K., Topphol; L., Tortora; D., Treille; Trevisan, Umberto; G., Tristram; C., Troncon; E. N., Tsyganov; M., Turala; R., Turchetta; M. L., Turluer; T., Tuuva; I. A., Tyapkin; M., Tyndel; S., Tzamarias; F., Udo; S., Ueberschaer; V. A., Uvarov; G., Valenti; E., Vallazza; J. A., Valls; G. W., Van Apeldoorn; P., Van Dam; W. K., Van Doninck; N., Van Eijndhoven; C., Vander Velde; J., Varela; P., Vaz; G., Vegni; M. E., Veitch; J., Velasco; L., Ventura; W., Venus; F., Verbeure; L. S., Vertogradov; L., Vibert; D., Vilanova; N. K., Vishnevskiy; E. V., Vlasov; A. S., Vodopianov; M., Vollmer; G., Voulgaris; M., Voutilainen; V., Vrba; H., Wahlen; C., Walck; F., Waldner; M., Wayne; P., Weilhammer; J., Werner; A. M., Wetherell; J. H., Wickens; J., Wikne; W. S. C., Williams; M., Winter; D., Wormald; G., Wormser; K., Woschnagg; N., Yamdagni; P., Yepes; A., Zaitsev; A., Zalewska; P., Zalewski; P. I., Zarubin; E., Zevgolatakos; G., Zhang; N. I., Zimin; R., Zitoun; R., Zukanovich Funchal; G., Zumerle; J., Zunig