3 research outputs found
AVENS - A Novel Flying Ad Hoc Network Simulator with Automatic Code Generation for Unmanned Aircraft System
Get PDFThe wireless communication has played a significant impact on our daily lives introducing simplicity and making life more comfortable. \ As a result of faster technological advances in electronics and communications, the development of different types of unmanned aerial vehicles (UAVs) has become possible. \ Recently, many efforts have been made to develop more efficient inter- and intra-vehicle communication protocols introducing new challenges, e. g. multiple-UAV communication and Flying Ad Hoc Networks (FANETs). \ However, most of the experiments using real prototypes or systems are not feasible due to the costs and risks involved. \ Thus, simulating network protocol behavior in FANET scenarios is increasingly required to evaluate the applicability of developed network protocols. \ Thereby, we have been developing AVENS, a hybrid aerial network simulation framework, which merges LARISSA Architectural Model, X-Plane Flight Simulator and OMNeT++ Discrete Event Simulator. \ In a proof-of-concept study, we highlighted its advantages. \ Using AVENS, we can advance in the state-of-the-art concerning performance evaluation of intelligent aerial vehicles and provide means to evaluate the development of protocols, codes and systems more accurately
Layered architecture model for interconnection of systems in UAS
No full textModelos de arquitetura têm sido utilizados para permitir o desenvolvimento mais adequado e estruturado de sistemas, desde os mais simples até os mais complexos. A utilização desses modelos em sistemas embarcados, principalmente quando se trata de sistemas embarcados críticos, como é o caso de veículos aéreos não tripulados (VANT), visam a permitir conformidades de padrões, redução no tempo de produção, redução e facilidade no processo de manutenção e desenvolvimento. Sistemas embarcados críticos possuem requisitos específicos, tais como alta confiabilidade e resposta em tempo real, segurança e desempenho. A definição de um modelo arquitetural que permita que esses quesitos sejam levados em consideração, propicie o atendimento aos padrões, além de permitir o desenvolvimento correto e acelerado é inovador, permitindo que não só a comunidade científica venha a ter benefícios com a sua concepção, mas também a indústria brasileira possa ganhar. Nesse sentido, este trabalho desenvolveu um modelo de arquitetura para a interconexão de sistemas aéreos não tripulados (SANTs) em Unified Modeling Language (UML)/System Modelling Language (SysML) denominado LARISSA (Layered ARchitecture model for Interconnection of SystemS in uAs). Como resultado deste trabalho foi possível a modelagem e especificação completa de um SANT fazendo uso desse modelo e a realização de diversos experimentos que permitiram validar o LARISSA. Os experimentos, focados na parte de comunicação, permitiram a concepção de um simulador de redes de VANTs. Os resultados obtidos demonstraram a eficiência e a eficácia do modelo de arquitetura LARISSA, além da sua flexibilidade em permitir que diferentes experimentos possam ser realizados, o que auxilia na obtenção de dados que facilitam o processo de certificação desses VANTs.Architecture models have been used to allow more adequate and structured development of systems, from the simplest to the most complex. The use of models in embedded systems are used to enable compliance standards, reduction in production time and ease of maintenance and development, especially when it comes to critical embedded systems such as unmanned aerial vehicles. Critical embedded systems have specific requirements, such as high reliability and real-time response, security and performance. The definition of an architectural model that deals with these requirements and standards and provides the service to standards allowing the correct and fast development is innovative and will provide benefits to the scientific and industrial communities. In this sense, this work developed an architectural model for the interconnection of Unmanned Aerial Systems (UAS) in Unified Modeling Language (UML)/System Modelling Language (SysML) called LARISSA (Layered ARchitecture model for Interconnection of SystemS in uAs). As a result of this development it was possible the modelling and specification of a complete UAS and the conduction of several experiments that allowed LARISSA validation. The experiments focused on the communication enabled the design of a UAV networks simulator. The results showed the efficiency and effectiveness of LARISSA architecture model, as well as its flexibility in carrying out different experiments, which helps in getting data to facilitate the certification process of these UAVs
