2,841 research outputs found

    Investment voice conversational bot

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    Tato práce rozebírá analýzu, návrh a vývoj hlasového inteligentního konverzačního bota na platformě Amazon Alexa, který umožňuje uživatelům získávat informace ohledně akciového trhu. Cílem aplikace je snížit vstupní bariéru do světa akciových trhů pro širokou veřejnost, využitím intuitivního hlasového rozhraní. Vytvořený konverzační bot se zaměřuje na vzdělávání uživatele ohledně akciových trhů, umožnění rychlého a jednoduchého získání novinek ohledně obchodovaných společností a celkovému udržení informovanosti uživatele. Aplikace cílí v první řadě na lidi se zájmem o investování na akciovém trhu a aspirující investory, přesto, může být velmi přínosná i pro již zkušenější investory.This project explores the analysis, design, and development of a voice-enabled intelligent conversation bot for the Amazon Alexa platform which allows users to get information about the stock trading market. Thanks to the intuitive voice interface, the goal of the application it to lower the barrier of getting into the stock trading domain for the general public. The created chatbot focuses on educating the user about stock markets, giving a fast and easy way to find out about the news regarding the trading companies and generally keeping the user up to date on the most important trading information. The application targets firstly people interested in stock market investments and aspiring investors, however, using this application could provide great value even to more experienced investors

    Apiaceae Lindl., Nat. Syst. Bot.

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    414. Apiaceae Lindl., Nat. Syst. Bot., ed. 2: 21. 13 Jun 1836, nom. cons., nom. alt. Actinotaceae Konstant. & Melikjan, Bot. Zhurn. (Moscow & Leningrad) 90: 1763. Dec 2005 Ammiaceae Bercht. & C.Presl, P ř ir . Rostlin: 259. Jan–Apr 1820 Angelicaceae Martinov, Tekhno-Bot. Slovar: 29. 3 Aug 1820 Bupleuraceae Bercht. & J.Presl, P ř ir . Rostlin: 258. Jan–Apr 1820 Caucalidaceae Bercht. & J.Presl, P ř ir . Rostlin: 259. Jan–Apr 1820 Coriandraceae Burnett, Outl. Bot.: 773, 783, 1093, 1128. Feb 1835 Daucaceae Martinov, Tekhno-Bot. Slovar: 183. 3 Aug 1820 Eryngiaceae Bercht. & J.Presl, P ř ir . Rostlin: 259. Jan–Apr 1820 Ferulaceae Sacc., Nouvo Giorn. Bot. Ital. 4: 214. 31 Jul 1872 Imperatoriaceae Martinov, Tekhno-Bot. Slovar: 328. 3 Aug 1820 Lagoeciaceae Bercht. & J.Presl, P ř ir . Rostlin: 259. Jan–Apr 1820 Mackinlayaceae Doweld, Tent. Syst. Pl. Vasc.: lii. 23 Dec 2001 Pastinacaceae Martinov, Tekhno-Bot. Slovar: 457. 3 Aug 1820 Pimpinellaceae Bercht. & J.Presl, P ř ir . Rostlin: 258. Jan–Apr 1820 Saniculaceae Bercht. & J.Presl, P ř ir . Rostlin: 259. Jan–Apr 1820 Scandicaceae Bercht. & J.Presl, P ř ir . Rostlin: 259. Jan–Apr 1820 Selinaceae Bercht. & J.Presl, P ř ir . Rostlin: 259. Jan–Apr 1820 Sileraceae Bercht. & J.Presl, P ř ir . Rostlin: 259. Jan–Apr 1820 Smyrniaceae Burnett, Outl. Bot.: 773, 1093, 1128. Feb 1835 Umbelliferae Juss., Gen. Pl.: 218. 4 Aug 1789, nom. cons. Index to names Abolbodaceae = Xyridaceae Abrophyllaceae = Rousseaceae Acaciaceae = Fabaceae Acalyphaceae = Euphorbiaceae Acanthaceae, 379 Acanthales = Lamiales Acanthochlamydaceae = Velloziaceae Aceraceae = Sapindaceae Acerales = Sapindales Achariaceae, 204 Achatocarpaceae, 298 Achradaceae = Sapotaceae Achyranthaceae = Amaranthaceae Aconitaceae = Ranunculaceae Acoraceae, 29 Acorales, 9 Acoranae = Lilianae Acristaceae = Arecaceae Actaeaceae = Ranunculaceae Actinidiaceae, 341 Actinidiales = Ericales Actinotaceae = Apiaceae Adenogrammaceae = Molluginaceae Adoxaceae, 406 Adoxales = Dipsacales Aegialitidaceae = Plumbaginaceae Aegicerataceae = Primulaceae Aegiceratales = Ericales Aegilopaceae = Poaceae Aeginetiaceae = Orobanchaceae Aegiphilaceae = Lamiaceae Aesculaceae = Sapindaceae Aesculales = Sapindales Aextoxicaceae, 275 Agapanthaceae = Amaryllidaceae Agavaceae = Asparagaceae Agavales = Asparagales Agdestidaceae = Phytolaccaceae Agrostidaceae = Poaceae Ailanthaceae = Simaroubaceae Aizoaceae, 305 Aizoales = Caryophyllales Ajugaceae = Lamiaceae Akaniaceae, 258 Akaniales = Brassicales Alangiaceae = Cornaceae Alangiales = Cornales Alchemillaceae = Rosaceae Aldrovandaceae = Droseraceae Alismataceae, 32 Alismatales, 10 Alismatanae = Lilianae Alismatidae = Magnoliidae Alliaceae = Amaryllidaceae Alliales = Asparagales Allioniaceae = Nyctaginaceae Allophylaceae = Sapindaceae Aloaceae = Xanthorrhoeaceae Alopecuraceae = Poaceae Alpiniaceae = Zingiberaceae Alseuosmiaceae, 395 Alseuosmiales = Asterales Alsinaceae = Caryophyllaceae Alsinales = Caryophyllales Alsodeiaceae = Violaceae Alstroemeriaceae, 55 Alstroemeriales = Liliales Altingiaceae, 127 Altingiales = Saxifragales Alzateaceae, 225 Amaranthaceae, 299 Amaranthales = Caryophyllales Amaryllidaceae, 74 Amaryllidales = Asparagales Amborellaceae, 1 Amborellales, 1 Amborellanae, A Ambrosiaceae = Asteraceae Ambrosiales = Asterales Ammanniaceae = Lythraceae Ammiaceae = Apiaceae Ammiales = Apiales Amomaceae = Zingiberaceae Amomales = Zingiberales Ampelopsidaceae = Vitaceae Amphorogynaceae = Santalaceae Amygdalaceae = Rosaceae Amygdalales = Rosales Amyridaceae = RutaceaePublished as part of Reveal, James L., Chase, Mark W., Iii, - Apg & Iii, Apg, 2011, APG III: Bibliographical Information and Synonymy of Magnoliidae Abstract Kew words Introduction, pp. 71-134 in Phytotaxa 19 (1) on pages 113-114, DOI: 10.11646/phytotaxa.19.1.

    Human-like bot

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    The main goal of my thesis is to create a bot for Unreal Tournament 2004 whose behaviour will be as similar as possible to human controlled players. At the beginning, I measured game play data from both humans and bots. Then, I chose one initial bot and I did five iterations of comparing bot data with humans data, selecting one difference, improving the bot with the aim to eliminate the difference and measuring data again. The successful improvements I made were removing rotations during running, adding reactions on hit and better weapon switching. The improvements that did not make a difference were adding a camping and roaming objective and evade using visibility module. In the end, believability of the bot was tested during a study with human players. The bot will take part in a human-like bot competition named the 2K BotPrize

    Human-like bot

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    The main goal of my thesis is to create a bot for Unreal Tournament 2004 whose behaviour will be as similar as possible to human controlled players. At the beginning, I measured game play data from both humans and bots. Then, I chose one initial bot and I did five iterations of comparing bot data with humans data, selecting one difference, improving the bot with the aim to eliminate the difference and measuring data again. The successful improvements I made were removing rotations during running, adding reactions on hit and better weapon switching. The improvements that did not make a difference were adding a camping and roaming objective and evade using visibility module. In the end, believability of the bot was tested during a study with human players. The bot will take part in a human-like bot competition named the 2K BotPrize

    Sprookspreker Jan Bot, heraut Gelre en het ontstaan van de Korte kroniek van Holland

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    Abstract – According to a recently discovered entry in an account book, the itinerant poet and reciter Jan Bot – of whom it was already known that he wrote a poem about John of Beaumont (†1356) – offered in May 1360 a rotulus containing a short chronicle of Holland to the Holland nobleman John of Blois (John II of Châtillon). This article brings together all the documentary evidence about Jan Bot known to date (from the period 1358 tot 1366) and attempts to identify the chronicle. Especially the so-called Korte kroniek van Holland (‘Short Chronicle of Holland’) seems to be a plausible candidate. A lot of the information in this short rhyming chronicle has been borrowed from Jacob van Maerlant’s Spiegel historiael. Until now, this chronicle was assumed to have been compiled in the late fourteenth century by Herald Guelders (Claes Heynenzoon), since he made two copies of the text and also wrote a continuation. However, this attribution is not without problems. Furthermore, there is a good reason to believe that the chronicle already came into being shortly after 1354. On the basis of these reflections, it cannot be excluded that it was a version of the Korte kroniek van Holland that was offered to John of Blois in 1360 in the form of a rotulus. The poet Jan Bot may have been the compiler of this short chronicle.status: Publishe

    Bot podobný člověku

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    Hlavním cílem této práce je vytvořit bota pro Unreal Tournament 2004, jehož chování má být co nejpodobnější lidským hráčům. Nejdříve jsme naměřili herní data od lidí a od botů. Poté jsme vybrali výchozího bota a udělali jsme celkem pět iterací porovnání dat od bota s lidskými daty, výběru nějakého rozdílu, vylepšení bota s cílem odstranit tento rozdíl a znovu měření dat. Úspěšná vylepšení byla odebrání otáčení bota za běhu, přidání reakcí na zasažení a lepší přepínání zbraní. Vylepšení která nezmenšila rozdíly byla přidání kempovacího a toulavého módu a útěk s použitím modulu viditelnosti. Na závěr byla věrohodnost bota testována během studie s lidskými hráči. Bot se bude účastnit soutěže botů podobných člověku pojmenovanou 2K BotPrize.The main goal of my thesis is to create a bot for Unreal Tournament 2004 whose behaviour will be as similar as possible to human controlled players. At the beginning, I measured game play data from both humans and bots. Then, I chose one initial bot and I did five iterations of comparing bot data with humans data, selecting one difference, improving the bot with the aim to eliminate the difference and measuring data again. The successful improvements I made were removing rotations during running, adding reactions on hit and better weapon switching. The improvements that did not make a difference were adding a camping and roaming objective and evade using visibility module. In the end, believability of the bot was tested during a study with human players. The bot will take part in a human-like bot competition named the 2K BotPrize.Department of Software and Computer Science EducationKatedra softwaru a výuky informatikyFaculty of Mathematics and PhysicsMatematicko-fyzikální fakult

    Plant Ecology, Plant Physiology & Plant Diversity: BOT 121

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    Examination paper on Plant Ecology, Plant Physiology & Plant Diversity: BOT 121, Jan 201

    FINANCING OF RAILWAY INFRASTRUCTURE IN SLOVENIA

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    In the paper we present a BOT (Build, Operate, Transfer) model of financing railway infrastructure development in the Republic of Slovenia. It is characteristic of this form of project financing that the host country or a local community grants a private project company or consortium a concession to build and manage the public infrastructure. By signing the concession contract, the concessionaire binds himself/herself to transfer all the property rights from the project back to the grantor at the end of the concession period without additional transaction costs at the end of the concession period.public-private partnerships, project finance, infrastructure, railway, Slovenia.

    Policy analysis for improving performance of PPP projects in Vietnam: A Case Study from BOT Phu My Bridge Project

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    The important of PPP model to the development of infrastructure as well as the Vietnamese economy, and exiting obstacles in BOT practices in Vietnam inspire me to do this thesis. Among many critical success factors influencing to performance of BOT practice in Vietnam, the author recognizes that Vietnamese government should try all its efforts to improve the financial market, ability to mange risks, legislation and regulation to leverage private involvement in BOT scheme. The other factors can be achieved by the learning curve process on the course of local and international PPP practice. Thus, the thesis focuses on PPP model specializing in the following main aspects: (1) financing of PPP projects, (2) management of risks in PPP projects, (3) the institutional and legal framework of PPP projects.Construction Management and EngineeringBouwCivil Engineering and Geoscience

    Ki-Bot

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    Copyright is held by the owner/author(s).This paper explores the development of a robotic toy that will be helping students in kinematic physics. Physics has always been a hard class and it is very difficult for students to understand the concepts behind each topic in physics. Ki-bot will help students not only solve kinematic word problems, but also understand the concept of kinematic word problems by testing their answers to word problems on the bot. Ki-bot will essentially bring kinematic word problems to life to help the student understand kinematic physics. The paper will explore the advantages and disadvantages of using interactive toys for learning and will also discuss the other products in the market that help students in kinematic physics. I will also discuss the design decisions, coding decisions, and some of the testing I did in the process of building and developing Ki-Bot. Ki-bot has been successful in showing the proof of concept that this will work in helping students test their answer to word problems and understand them. Additionally, I will discuss the future work that could be done to improve Ki-bot
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