Global ETD Search

41	Klimarandbedingungen in der hygrothermischen Bauteilsimulation. Ein Beitrag zur Modellierung von kurzwelliger und langwelliger Strahlung sowie Schlagregen / Climatic boundary conditions in hygrothermal building part simulation. A contribution to the modelling of shortwave and longwave radiation and driving rain Fülle, Claudia 21 July 2011 (has links) (PDF) Nachhaltige Architektur erfordert neue Bauformen, innovative Konstruktionen und die Verwendung neuartiger Baumaterialien. Zur Abschätzung des Risikos von feuchtebedingten Schäden finden Programme der hygrothermischen Bauteilsimulation Anwendung. Bei der Entwicklung solcher Simulationsprogramme spielt die korrekte Modellierung der Klimarandbedingungen eine entscheidende Rolle. Beim Übergang von der kurzwelligen horizontalen Strahlungsstromdichte auf die kurzwellige Strahlungsstromdichte eines beliebigen Bauteils müssen Himmelsrichtung der Flächennormalen und die Neigung des Bauteils zum Ausschluss von Eigenverschattung berücksichtigt werden. Das dargestellte integrale Modell erlaubt die Berechnung und Programmierung in einem hygrothermischen Simulationsprogramm. Für den Fall, dass nur Messwerte der globalen Strahlungsstromdichte zur Verfügung stehen, können die direkten und diffusen Anteile mithilfe geeigneter Modelle mit einer sehr guten Genauigkeit berechnet werden. Zur Berechnung der langwelligen Strahlungsbilanz eines Bauteils stehen nur selten jene Klimaparameter zur Verfügung, mit denen die atmosphärische langwellige Strahlungsflussdichte analytisch bestimmt werden kann, weshalb semi-empirische Modelle Anwendung finden müssen. Die langwellige Ausstrahlung der Atmosphäre kann mithilfe von bodennaher Lufttemperatur und Luftfeuchte sowie zweier Bedeckungsgrad-Indizes berechnet werden, welche die langwelligen Strahlungseigenschaften der Atmosphäre auf der Basis der vorhandenen kurzwelligen Strahlungsstromdichten beschreiben. Damit wird erstmals ein umfassendes Modell für die langwellige Strahlungsbilanz vorgelegt, welches alle Möglichkeiten der Datenverfügbarkeit berücksichtigt. Die Berechnung der Schlagregenstromdichte auf ein Bauteil kann mit den meisten vorliegenden semi-empirischen Modellen nur sehr ungenau erfolgen. Andere Verfahren, wie z.B. CFD-Simulationen, kommen wegen des beträchtlichen Aufwands meist nicht in Frage. Das bislang einzige vorliegende umfassende validierte semi-empirische Modell von Blocken kann durch die Berücksichtigung der mesoklimatischen Verhältnisse in seiner Genauigkeit verbessert werden. / Sustainable architecture requires new building design, innovative constructions and the use of newly developed building materials. In order to determine the risk of moisture-related damages, computer programs for hygrothermal building part simulation are being used. If one develops such a simulation program, correct modelling of climatic boundary conditions plays an important role. When calculating the shortwave solar radiation flux density at an arbitrary building part on the basis of the shortwave solar radiation flux density on the horizontal surface, one must take into consideration the orientation and the inclination of the building part in order to preclude self-shading. The presented integral model allows the calculation and the programming in a hygrothermal simulation program. If only measured values of global radiation flux density are available, direct and diffuse parts can be determined very precisely by means of validated models. When calculating the longwave radiation balance on a building part, the needed values for the correct determination of atmospheric longwave radiation are hardly available. That’s why semi-empirical models will be applied. The longwave radiation flux density of the atmosphere can be determined on the basis of near-ground temperature and relative humidity and two cloud cover indices, which describe the longwave irradiative properties of the atmosphere by means of available shortwave radiation flux densities. Therewith, firstly an integral model is being presented in order to determine longwave radiation balance, which considers all possibilities of data availability. Most models for determination of driving rain load work with very bad accuracy. Other methods such as computational fluid dynamics (CFD) are not possible for hygrothermal building part simulations because of the huge effort. The only fully validated semi-empirical model by Blocken can be improved, if meso-climatic boundary conditions are taken into consideration. Hygrothermische Simulation Klimarandbedingungen Kurzwellige Strahlung Langwellige Strahlung Schlagregen Bedeckungsgrad Hygrothermal building part simulation Climatic boundary conditions Shortwave radiation Longwave radiation Driving rain Cloud cover ddc:690 rvk:ZI 4050
42	Modelo de uso dos canais de comunicação do controle de trafego aéreo / Usage model of the air traffic control communication channels Rossi, Denniel Sancho Zorzal 06 November 2015 (has links) O conhecimento sobre o perfil de uso dos meios de comunicação utilizados pelo serviço de controle de tráfego aéreo pode subsidiar o dimensionamento de redes de telecomunicação destinadas ao transporte de sinais de voz entre órgãos de controle de tráfego aéreo e estações remotas de VHF. O dimensionamento correto dessas redes destina-se a relacionar a capacidade dos circuitos com a probabilidade de sucesso das comunicações entre controlador de tráfego aéreo e aeronaves, fator fundamental para a manutenção da segurança operacional das atividades de controle de tráfego aéreo. O conhecimento sobre esse perfil de uso, por sua vez, foi alcançado através de estudos estatísticos realizados sobre uma massa de dados relacionada à utilização do chamado Serviço Móvel Aeronáutico, que é o recurso utilizado por controladores de tráfego aéreo e pilotos em aeronaves controladas para a troca de mensagens de voz, através do qual as instruções de controle de tráfego aéreo são passadas. Essa massa de dados estudada foi resultado da aplicação de uma metodologia que processou centenas de horas de gravação do Serviço Móvel Aeronáutico prestado pelo CINDACTA II, entre os dias 14 de dezembro de 2014 e 03 de janeiro de 2015, a qual foi organizada em função da taxa de ocupação do meio de comunicação e analisada no sentido de identificar as dinâmicas de distribuição do uso do Serviço Móvel Aeronáutico. Como resultado, obteve-se que parte das dinâmicas que regem a ocupação desse serviço pode ser representada por curvas de distribuição conhecidas, como weibull e lognormal, associadas a modelos de transição. / The knowledge about the usage of the communications resorces used by the air traffic service provider can be usefull to design the networks needed to transport voice signal between the air traffic provider and remote radio station. The accurate design of those networks, in the other hand, should offer an association between the network instant capacity and the rate of communication sucess in any controller's tries to communicate with the aircrafts. This rate of communication sucess is a parameter that indicates how safe is the air traffic activity, in term of communication between the air traffic controller and the aircrafts, and it must be monitoring to guarante the operational safety. So, the knowledge of interesting was achieved analysing data related to the use of Aeronautical Mobile Service, which is the resource used by air traffic controller and aircraft to exchange voice mensagens of air traffic service. Those data were the results of a methodology that processed hundred of hours of records of the Aeronautical Mobile Service provided by the CINDACTA II, between 14/12/2014 and 03/01/2015, which were sorted by the percent of engagement time and analysed to identify any distribution function that could represent the way the Aeronautical Mobile Service is used. As a result, this study indentified that this usage can be depicted by some typical probability density function, like Weibull and Lognormal, combined with transitional chain. Sistemas de telecomunicação Rádio de ondas curtas - Brasil Aeronáutica Engenharia elétrica Telecommunication systems Shortwave radio - Brazil Aeronautics Electric engineering
43	The impact of the radiation balance on snowmelt in a sparse deciduous birch forest Turton, Rachael Heather January 2017 (has links) The representation of high-latitude surface processes and quantifying surface-climate feedbacks are some of the most serious shortcomings of present day Arctic land surface modelling. The energy balance of seasonally snow-covered sparse deciduous forests at high latitudes is poorly understood and inaccurately represented within hydrological and climate models. Snow cover plays an important role in wintertime fluxes of energy, water and carbon, controlling the length of the active growing season and hence the overall carbon balance of Arctic ecosystems. Snow cover is non-uniform and spatially variable, as wind redistributes snow from areas of exposed open tundra to sheltered areas within the forest, where a deeper snowpack develops. Low solar zenith angles, coupled with sparse deciduous leafless trees, cast shadows across the snow surface. The spatial distribution of canopy gaps determines the timing of direct radiation which penetrates down through the canopy to the snow surface. The forest canopy also excludes incoming longwave radiation and yet also emits longwave radiation to the snow surface. Consequently the forest canopy plays a key role in the radiation balance of sparse forests. To improve our knowledge of these complex processes, meteorological and field observations were taken in an area of highly heterogeneous birch Betula pubescens ssp. czerepanovii forest in Abisko, Sweden during the spring of 2008 and 2009. Detailed measurements of short and longwave radiation above and below the canopy, hemispherical photographs, tree temperatures and snow surveys were conducted to quantify the radiation balance of the sparse deciduous forest. An array of below canopy pyranometers found the mean canopy transmissivity to be 74 % in 2008 and 76 % in 2009. Hemispherical photographs taken at the pyranometer locations analysed with Gap Light Analyzer (GLA) showed reasonable agreement with a mean canopy transmissivity of 75 % in 2008 and 74 % in 2009. The canopy transmissivity was found to be independent of the diffuse fraction of radiation as the canopy is very sparse. A series of survey grids and transects were established to scale up from the below canopy pyranometers to the landscape scale. Hemispherical photographs analysed with GLA showed the sparse forest canopy had a mean transmissivity of 78 % and a mean LAI of 0.25, whereas the open tundra had a mean transmissivity of 97 % and a mean LAI of < 0.01. Snow surveys showed the sparse forest snow depth to vary between 0.34 and 0.55 m, whereas the snow depth in the open tundra varied between 0.12 and 0.18 m. Observations of canopy temperatures showed a strong influence of incident shortwave radiation warming the tree branches to temperatures up to 15 °C warmer than ambient air temperature on the south facing sides of the trees, and up to 6 °C on the north facing sides of the trees. To reproduce the observed radiation balance, two canopy models (Homogenous and Clumped) were developed. The Homogeneous canopy model assumes a single tree tile with a uniform sparse canopy. The Clumped canopy model assumes a tree and a grass tile, where the tree tile is permanently in shade from the canopy and the grass tile receives all the incoming radiation. These canopy models identified the need for a parameter that accounts for the spatial and temporal variation of the shaded gaps within the sparse forest. JULES (Joint UK Land Environment Simulator) is the community land surface model used in the UK Hadley Centre GCM suite. Modifications of the land-surface interactions were included in JULES to represent the shaded gaps within the sparse deciduous forest. New parameterisations were developed for the time-varying sunlit fractions of the gap (flit), the sky-view fraction (fv), and the longwave radiation emitted from the canopy (LWtree). These model developments were informed by field observations of the forest canopy and evaluated against the below canopy short and longwave radiation observed data sets. The JULES Shaded gap model output showed a strong positive relationship with the observations of below canopy shortwave and longwave radiation. The JULES Shaded gap model improves the ratio of observed to modelled short and longwave radiation on sunny days compared to the JULES model. The JULES Shaded gap model reduces the time to snow melt by 2 to 4 days compared to the JULES model, making the model output more aligned with in-situ observational data. This shortening of the modelled snow-season directly impacts on the simulated carbon and water balance regionally and has wider relevance at the pan-Arctic scale. When JULES Shaded Gap was evaluated on the global scale, it improved the modelled snowmass across large areas of sparse forest in northern Canada, Scandinavia and Northern Russia with respect to GlobSnow. The performance of the land surface-snow-vegetation interactions of JULES was improved by using the Shaded gap to model the radiation balance of sparse forests in climate-sensitive Arctic regions. Furthermore these observational data can be used to develop and evaluate high latitude land-surface processes and biogeochemical feedbacks in other earth system models.
44	Validation of high frequency propagation prediction models over Africa Tshisaphungo, Mpho January 2010 (has links) The ionosphere is an important factor in high frequency (HF) radio propagation providing an opportunity to study ionospheric variability as well as the space weather conditions under which HF communication can take place. This thesis presents the validation of HF propagation conditions for the Ionospheric Communication Enhanced Profile Analysis and Circuit (ICEPAC) and Advanced Stand Alone Prediction System (ASAPS) models over Africa by comparing predictions with the measured data obtained from the International Beacon Project (IBP). Since these models were not developed using information on the African region, a more accurate HF propagation prediction tool is required. Two IBP transmitter stations are considered, Ruaraka, Kenya (1.24°S, 36.88°E) and Pretoria, South Africa (25.45°S, 28.10°E) with one beacon receiver station located in Hermanus, South Africa (34.27°S, 19.l2°E). The potential of these models in terms of HF propagation conditions is illustrated. An attempt to draw conclusions for future improvement of the models is also presented. Results show a low prediction accuracy for both ICEPAC and ASAPS models, although ICEPAC provided more accurate predictions for daily HF propagation conditions. This thesis suggests that the development of a new HF propagation prediction tool for the African region or the modification of one of the existing models to accommodate the African region, taking into account the importance of the African ionospheric region, should be considered as an option to ensure more accurate HF Propagation predictions over this region. Ionospheric radio wave propagation Radio meteorology Radio wave propagation -- Africa Ionosphere -- Africa -- Radio waves Atmospheric physics -- Africa Shortwave radio -- Africa
45	A feasibility study into the possibility of ionospheric propagation of low VHF (30-35 MHZ) signals between South Africa and Central Africa Coetzee, Petrus Johannes January 2009 (has links) The role of the South African National Defence Force (SANDF) has changed considerably in the last decade. The emphasis has moved from protecting the country's borders to peacekeeping duties in Central Africa and even further North. Communications between the peacekeeping missions and the military bases back in South Africa is vital to ensure the success of these missions. Currently use is made of satellite as well as High Frequency (HF) communications. There are drawbacks associated with these technologies (high cost and low data rates/interference respectively). Successful long distance ionospheric propagation in the low Very High Frequency (VHF) range will complement the existing infrastructure and enhance the success rate of these missions. This thesis presents a feasibility study to determine under what ionospheric conditions such low VHF communications will be possible. The International Reference Ionosphere (IRI) was used to generate ionospheric data for the reflection point(s) of the signal. The peak height of the ionospheric F2 layer (hmF2) was used to calculate the required antenna elevation angle. Once the elevation angle is known it is possible to calculate the required F2 layer critical frequency (foF2). The required foF2 value was calculated by assuming a Maximum Useable Frequency (MUF) of 20% higher than the planned operational frequency. It was determined that single hop propagation is possible during the daytime if the smoothed sunspot number (SSN) exceeds 15. The most challenging requirement for successful single hop propagation is the need of an antenna height of 23 m. For rapid deployment and semi-mobile operations within a jungle environment it may prove to be a formidable obstacle. Communications, Military -- South Africa Digital communications -- South Africa Signals and signaling -- South Africa Signals and signaling -- Africa, Central Shortwave radio
46	Klimarandbedingungen in der hygrothermischen Bauteilsimulation. Ein Beitrag zur Modellierung von kurzwelliger und langwelliger Strahlung sowie Schlagregen Fülle, Claudia 06 April 2011 (has links) Nachhaltige Architektur erfordert neue Bauformen, innovative Konstruktionen und die Verwendung neuartiger Baumaterialien. Zur Abschätzung des Risikos von feuchtebedingten Schäden finden Programme der hygrothermischen Bauteilsimulation Anwendung. Bei der Entwicklung solcher Simulationsprogramme spielt die korrekte Modellierung der Klimarandbedingungen eine entscheidende Rolle. Beim Übergang von der kurzwelligen horizontalen Strahlungsstromdichte auf die kurzwellige Strahlungsstromdichte eines beliebigen Bauteils müssen Himmelsrichtung der Flächennormalen und die Neigung des Bauteils zum Ausschluss von Eigenverschattung berücksichtigt werden. Das dargestellte integrale Modell erlaubt die Berechnung und Programmierung in einem hygrothermischen Simulationsprogramm. Für den Fall, dass nur Messwerte der globalen Strahlungsstromdichte zur Verfügung stehen, können die direkten und diffusen Anteile mithilfe geeigneter Modelle mit einer sehr guten Genauigkeit berechnet werden. Zur Berechnung der langwelligen Strahlungsbilanz eines Bauteils stehen nur selten jene Klimaparameter zur Verfügung, mit denen die atmosphärische langwellige Strahlungsflussdichte analytisch bestimmt werden kann, weshalb semi-empirische Modelle Anwendung finden müssen. Die langwellige Ausstrahlung der Atmosphäre kann mithilfe von bodennaher Lufttemperatur und Luftfeuchte sowie zweier Bedeckungsgrad-Indizes berechnet werden, welche die langwelligen Strahlungseigenschaften der Atmosphäre auf der Basis der vorhandenen kurzwelligen Strahlungsstromdichten beschreiben. Damit wird erstmals ein umfassendes Modell für die langwellige Strahlungsbilanz vorgelegt, welches alle Möglichkeiten der Datenverfügbarkeit berücksichtigt. Die Berechnung der Schlagregenstromdichte auf ein Bauteil kann mit den meisten vorliegenden semi-empirischen Modellen nur sehr ungenau erfolgen. Andere Verfahren, wie z.B. CFD-Simulationen, kommen wegen des beträchtlichen Aufwands meist nicht in Frage. Das bislang einzige vorliegende umfassende validierte semi-empirische Modell von Blocken kann durch die Berücksichtigung der mesoklimatischen Verhältnisse in seiner Genauigkeit verbessert werden. / Sustainable architecture requires new building design, innovative constructions and the use of newly developed building materials. In order to determine the risk of moisture-related damages, computer programs for hygrothermal building part simulation are being used. If one develops such a simulation program, correct modelling of climatic boundary conditions plays an important role. When calculating the shortwave solar radiation flux density at an arbitrary building part on the basis of the shortwave solar radiation flux density on the horizontal surface, one must take into consideration the orientation and the inclination of the building part in order to preclude self-shading. The presented integral model allows the calculation and the programming in a hygrothermal simulation program. If only measured values of global radiation flux density are available, direct and diffuse parts can be determined very precisely by means of validated models. When calculating the longwave radiation balance on a building part, the needed values for the correct determination of atmospheric longwave radiation are hardly available. That’s why semi-empirical models will be applied. The longwave radiation flux density of the atmosphere can be determined on the basis of near-ground temperature and relative humidity and two cloud cover indices, which describe the longwave irradiative properties of the atmosphere by means of available shortwave radiation flux densities. Therewith, firstly an integral model is being presented in order to determine longwave radiation balance, which considers all possibilities of data availability. Most models for determination of driving rain load work with very bad accuracy. Other methods such as computational fluid dynamics (CFD) are not possible for hygrothermal building part simulations because of the huge effort. The only fully validated semi-empirical model by Blocken can be improved, if meso-climatic boundary conditions are taken into consideration. info:eu-repo/classification/ddc/690 ddc:690
47	Microsatellite Constellation for Wildfire Monitoring / Mikrosatellitkonstellation för övervakning av skogsbränder Bruce Rosete, Citlali January 2022 (has links) I flera års tid har antalet svåra och okontrollerade skogsbränder ökat i antal. Det finns ett behov av att detektera skogsbränder med hjälp av satelliter som har högre tidsupplösning samt högre geometrisk upplösning än de satelliter som är i bruk idag. I detta examensarbete utfördes dels en studie av bildframställningen hos, och dels designen av omloppsbanan till en mikrosatellitkonstellation, som använder sig av nära-infraröd (NIR) och kortvågig infraröd (SWIR) avbildningsteknik med förstärkt geometrisk upplösning och tidsupplösning för övervakning av skogsbränder. En översikt av den nuvarande tekniken visade olika alternativ för kamera: två kommersiella sensorer med ett spektralområde på 0.7 till 1.7 μm och geometrisk upplösning på 140 m respektive 112 m; en kommersiell sensor med ett spektralområde på upp till 2.2 μm och geometrisk upplösning på 168 m; samt ett förslag till sensor med högre geometrisk upplösning på 20 m eller 50 m, som erhålls genom att öka brännvidden. Flera slutsatser nåddes med hänsyn till avbildningen: lämpligheten hos linserna som hittades till respektive sensor verifierades, och det upptäcktes att förvrängningen till följd av jordens rotation ökade med förlängd exponeringstid, vilket även skedde för förhållandet mellan signal och störningar. Ett förslag till en cirkulär, solsynkron, polär omloppsbana med ett dagligen upprepande mönster lades fram. En förenklad metod för beräkning av halva storaxeln tillämpades, och därmed bestämdes en höjd på 561 km och lutning på 97.64°. I enlighet med detta uppskattades antalet satelliter som krävs för både global och regional (Sverige) täckning för alla avbildningsalternativ. För global täckning beräknades antalet satelliter som krävs för att uppnå en geometrisk upplösning på 140.25 m till 15 stycken, medan en geometrisk upplösning på 50 m krävde 84 stycken satelliter. För regional täckning (Sverige) krävdes å andra sidan endast 6 stycken satelliter för att uppnå en geometrisk upplösning på 140.25 m, och 32 stycken för en geometrisk upplösning på 50 m. Detta examensarbete har visat hur många satelliter som behövs för antingen global eller regional täckning så att skogsbränder kan detekteras med högre geometrisk upplösning samt högre tidsupplösning. / For several years, the occurrence of more severe and uncontrolled wildfires has been increasing. There is a need to detect wildfires with a higher spatial and temporal resolution than the ones currently provided by operational satellites. In this thesis, an imager study and orbital design of a microsatellite constellation using near infrared (NIR) and shortwave infrared (SWIR) imagers for wildfire monitoring, with enhanced spatial and temporal resolution, was conducted. After a state of the art review, different alternatives of imaging systems were discerned: two commercial sensors with spectral range of 0.7 to 1.7 μm and spatial resolution of 140 m and 112 m, respectively; one commercial sensor with spectral range up to 2.2 μm and spatial resolution of 168 m; and one sensor proposal with higher spatial resolution of 20 m or 50 m, achieved by increasing the focal length. Several conclusions were reached with regards to the imagers: the appropriateness of lenses found for each sensor was confirmed, the Earth rotation distortion was found to increase as the exposure time is extended, as did the signal-to noise ratio. A proposal for a circular sun-synchronous polar orbit with a daily repeating pattern was made. Applying a simplified method to calculate the semi-major axis, an altitude of 561 km and inclination of 97.64° were determined. Accordingly, the number of satellites for both global and regional (Sweden) coverage was estimated for all imager alternatives. For global coverage, the necessary number of satellites to achieve a spatial resolution of 140.25 m was calculated to be 15 satellites, whereas for a spatial resolution of 50 m the number of satellites increased to 84. On the other hand, for regional coverage (Sweden), the number of satellites to achieve a spatial resolution of 140.25 m were 6, and for a spatial resolution of 50 m the number of satellites was 32. This thesis shows how many satellites are required for either global or regional coverage, considering different imager configurations, to detect wildfires with a higher spatial and temporal resolution. microsatellite shortwave infrared sensor active fire monitoring burned area detection satellite constellation mikrosatellit kortvågig infraröd sensor aktiv brandövervakning detektion av brandhärjat område satellitkonstellation Ecology Ekologi Forest Science Skogsvetenskap Telecommunications Telekommunikation
48	Emergency Communication Aburawi, Abdulrahman, Salic, Sarija January 2015 (has links) Even in the 21st century, modern communication technology is still affected by natural disasters and political turmoil which threaten people’s lives and make the internet or mobile phone networks unavailable for use. This work uses systems theory which resulted in a proof of concept system that uses shortwave radio technology to provide a one-way communication system. A message a user writes on their smartphone, which is connected to a small pre-set transmitter, is sent out to a receiver in another part of the world where the message can then be posted on the internet. This system is a cheaper alternative to other shortwave radio transmitters, and has potential for improvement. Shortwave radio Disaster relief Wireless communication Smartphones Telecommunication Arduino Embedded system Radio Kortvågsradio Inbyggda system Nödkommunikation Trådlös kommunikation Telekommunikation Kortvåg High frequency radio HF radio SW radio Engineering and Technology Teknik och teknologier
49	Modellering och simulering av Multiantennsystem avsett för litet fartyg Annerstål, Viktor, Ottosson, Peter January 2016 (has links) Within the military there is great need for reliable communication between vehicles. During the planning and construction of a military RIB, Rigid-hulled Inflatable Boat, it is important to design an efficient antenna system that does not deteriorate out of disorder. It must also be ensured that the antennas transmitted power does not stay in the RIB boat. We have been given assignment to model and simulate a proposed antenna system and assess which tool is best suitable for the task. To analyze the antenna system we will look at the radiated electrical field together with the reflectionand EMC properties. The tool that we choose to use is a software called EMPro produced by Keysight Technologies. In this program we will create 3Dstructures for each individual object, the boat, the three antennas and the seawater. It’s also important to include each objects properties concerning material, so that they correctly reflect the reality. We are covering a broad spectrum with our antennas reaching from 1.6-30MHz, 30-88MHz and 100512MHz. The resulting simulation verifies that electromagnetic field would be powerful enough and that the antennas would not affect each other with the proposed placement. We could also confirm that our antennas reflected an inordinate amount of power but with cause that our models were not an exact replica of the antenna. The software EMPro is a suitable tool for this kind of projects concerning modeling and simulating antenna systems.Within the military there is great need for reliable communication between vehicles. During the planning and construction of a military RIB, Rigid-hulled Inflatable Boat, it is important to design an efficient antenna system that does not deteriorate out of disorder. It must also be ensured that the antennas transmitted power does not stay in the RIB boat. We have been given assignment to model and simulate a proposed antenna system and assess which tool is best suitable for the task. To analyze the antenna system we will look at the radiated electrical field together with the reflectionand EMC properties. The tool that we choose to use is a software called EMPro produced by Keysight Technologies. In this program we will create 3Dstructures for each individual object, the boat, the three antennas and the seawater. It’s also important to include each objects properties concerning material, so that they correctly reflect the reality. We are covering a broad spectrum with our antennas reaching from 1.6-30MHz, 30-88MHz and 100512MHz. The resulting simulation verifies that electromagnetic field would be powerful enough and that the antennas would not affect each other with the proposed placement. We could also confirm that our antennas reflected an inordinate amount of power but with cause that our models were not an exact replica of the antenna. The software EMPro is a suitable tool for this kind of projects concerning modeling and simulating antenna systems. / Inom militären finns stort behov av pålitlig kommunikation mellan fordon. Vid konstruktion av ett småfartyg i militärtoch bevakningssyfte är det viktigt att designa ett välfungerande antennsystem som inte försämras utav störningar, det ska även ses till att antennernas utsända effekt inte fastnar i småfartyget. Vi har fått en ritning av hur antennplaceringen är planerad, denna rapport går ut på att verifiera dess funktionalitet samt hitta en mjukvara som kan användas för att verifiera olika antennsystem. För att bedöma antennsystemet kommer denna rapport att undersöka att dess elektriska fält samt reflektionsoch EMC egenskaper, en uppgift som kan lösas med programvaran EMPro (Keysight). I programvaran skapas en 3Dstruktur som innehåller småfartyget, dess 3 stycken antenner samt omfattande havsvatten. Här tas hänsyn till objektens materialegenskaper, antennernas jordning samt de frekvenser antennerna arbetar på, 1.6-30MHz, 30-88MHz samt 100-512MHz. Simulering av systemet gav positiva resultat kring antennsystemets elektromagnetiskafält, antennerna kommer inte heller att störa varandra. Antennerna som vi har modellerat reflekterar orimligt mycket effekt, detta bortser vi från då vi inte haft tillgång till exakt avbildning av antennerna. EMPro är ett verktyg som är lämpligt att använda i detta samt liknande projekt. Dock krävs det att en kraftig dator finns tillgänglig då simuleringar av stora antennsystem baseras på stora uträkningar, som generellt tar lång tid. RIB Military Antenna antenna system EMpro Keysight Electric field S- parameters reflection coefficient modeling simulation EMC Shortwave HF VHF UHF FDTD HF1630 VHF3088 UHF100512 Maxwells equations Småfartyg Militär Antenn Antennsystem EMPro Keysight Elektriskt fält S-parameter Reflektionskoefficient Modellering Simulering EMC Kortvåg HF VHF UHF FDTD HF1630 VHF3088 UHF100512 Maxwells ekvationer Elektroteknik och elektronik

Search results