Effect of the acoustic impedance in ultrasonic emitter transducers using digital modulations

In an underwater environment it is difficult to implement solutions for wireless communications. The existing technologies using electromagnetic waves or lasers are not very efficient due to the large attenuation in the aquatic environment. Ultrasound reveals a lower attenuation, and thus has been used in underwater long-distance communications. The much slower speed of acoustic propagation in water (about 1500 m/s) compared with that of electromagnetic and optical waves, is another limiting factor for efficient communication and networking. For high data-rates and real-time applications it is necessary to use frequencies in the MHz range, allowing communication distances of hundreds of meters with a delay of milliseconds. To achieve this goal, it is necessary to develop ultrasound transducers able to work at high frequencies and wideband, with suitable responses to digital modulations. This work shows how the acoustic impedance influences the performance of an ultrasonic emitter transducer when digital modulations are used and operating at frequencies between 100 kHz and 1 MHz. The study includes a Finite Element Method (FEM) and a MATLAB/Simulink simulation with an experimental validation to evaluate two types of piezoelectric materials: one based on ceramics (high acoustic impedance) with a resonance design and the other based in polymer (low acoustic impedance) designed to optimize the performance when digital modulations are used. The transducers performance for Binary Amplitude Shift Keying (BASK), On-Off Keying (OOK), Binary Phase Shift Keying (BPSK) and Binary Frequency Shift Keying (BFSK) modulations with a 1 MHz carrier at 125 kbps baud rate are compared.

Learning Robotics for youngsters - the RoboParty experience

Series: "Advances in intelligent systems and computing , ISSN 2194-5357, vol. 417"

Off-line simulation inspires insight: a neurodynamics approach to efficient robot task learning

There is currently an increasing demand for robots able to acquire the sequential organization of tasks from social learning interactions with ordinary people. Interactive learning-by-demonstration and communication is a promising research topic in current robotics research. However, the efficient acquisition of generalized task representations that allow the robot to adapt to different users and contexts is a major challenge. In this paper, we present a dynamic neural field (DNF) model that is inspired by the hypothesis that the nervous system uses the off-line re-activation of initial memory traces to incrementally incorporate new information into structured knowledge. To achieve this, the model combines fast activation-based learning to robustly represent sequential information from single task demonstrations with slower, weight-based learning during internal simulations to establish longer-term associations between neural populations representing individual subtasks. The efficiency of the learning process is tested in an assembly paradigm in which the humanoid robot ARoS learns to construct a toy vehicle from its parts. User demonstrations with different serial orders together with the correction of initial prediction errors allow the robot to acquire generalized task knowledge about possible serial orders and the longer term dependencies between subgoals in very few social learning interactions. This success is shown in a joint action scenario in which ARoS uses the newly acquired assembly plan to construct the toy together with a human partner.

Review of robotic technology for keyhole transcranial stereotactic neurosurgery

The research of stereotactic apparatus to guide surgical devices began in 1908, yet a major part of today's stereotactic neurosurgeries still rely on stereotactic frames developed almost half a century ago. Robots excel at handling spatial information, and are, thus, obvious candidates in the guidance of instrumentation along precisely planned trajectories. In this review, we introduce the concept of stereotaxy and describe a standard stereotactic neurosurgery. Neurosurgeons' expectations and demands regarding the role of robots as assistive tools are also addressed. We list the most successful robotic systems developed specifically for or capable of executing stereotactic neurosurgery. A critical review is presented for each robotic system, emphasizing the differences between them and detailing positive features and drawbacks. An analysis of the listed robotic system features is also undertaken, in the context of robotic application in stereotactic neurosurgery. Finally, we discuss the current perspective, and future directions of a robotic technology in this field. All robotic systems follow a very similar and structured workflow despite the technical differences that set them apart. No system unequivocally stands out as an absolute best. The trend of technological progress is pointing toward the development of miniaturized cost-effective solutions with more intuitive interfaces.

Assistive locomotion strategies for active lower limb devices

Dissertação de mestrado integrado em Engenharia Biomédica (área de especialização em Eletrónica Médica)

Hand gesture recognition system based in computer vision and machine learning: Applications on human-machine interaction

Tese de Doutoramento em Engenharia de Eletrónica e de Computadores

Definition of multibody system

This chapter presents a general view of multibody system concept and definition by describing the main features associated with spatial systems. The mechanical components, which can be modeled as rigid or flexible, are constrained by kinematic pair of different types. Additionally, the bodies can be actuated upon by force elements and external forces due to interaction with environment. This chapter also presents some examples of application of multibody systems that can include automotive vehicles, mechanisms, robots and biomechanical systems.

Manipulador Robótico

El uso de robots industriales junto con los sistemas de diseño asistidos por computadora (CAD), y los sistemas de fabricación asistidos por computadora (CAM), son la última tendencia en automatización de los procesos de fabricación. Aunque el crecimiento del mercado de la industria Robótica ha sido lento en comparación con los primeros años de la década de los 80´s, de acuerdo a algunas predicciones, la industria de la robótica está en su infancia. Ya sea que éstas predicciones se realicen completamente, o no, es claro que la industria robótica, en una forma o en otra, permanecerá. En la actualidad el uso de los robots industriales está concentrado en operaciones muy simples, como tareas repetitivas que no requieren tanta precisión. En los 80´s las tareas relativamente simples como las máquinas de inspección, transferencia de materiales, pintado automotriz, y soldadura son económicamente viables para ser robotizadas. Los análisis de mercado en cuanto a fabricación predicen que en ésta década y en las posteriores los robots industriales incrementarán su campo de aplicación, ésto debido a los avances tecnológicos en sensórica, los cuales permitirán tareas mas sofisticadas. El futuro es muy incierto y seguramente los ROBOTS tendrán mucho que ver en nuestra vida diaria en los próximos años y tenemos que lograr que la Argentina no solo este presente, en desarrollos que ameriten una publicación Internacional, si no también que puedan ser, en conjunción con la Universidad, la industria y aportes de capitales privados, diseñados, construidos, aplicados y comercializados según las necesidades de nuestro medio, desde el reemplazo de miembros humanos a personas con discapacidades, el alivio al hombre en tareas inhumanas y también en aplicaciones industriales aun no explotadas. Actualmente la investigación en el área de robótica en la Argentina, esta enfocada a problemas de electrónica y control. La mecánica no forma parte de dicho ambiente científico como puede verse en las 4 últimas Jornadas Argentinas de Robótica. En todos los casos se trabaja en la investigación de algoritmos o métodos de control montados en pequeños robots comerciales. El proyecto ROBOT-01 propone la construcción de un manipulador de 7 grados de libertad, aplicando las mas modernas técnicas de Simulación, diseño, CAD-3D, materiales compuestos, construcción de micro-mecánica, electrónica y software. El brazo manipulador estará diseñado para ser continuado o asociado con una mano robótica y con una base móvil autónoma, las que serán encaradas en proyectos futuros, o con interacción con otros grupos de investigación similares de otras Universidades

Adaptive Regelung von Robotersystemen in Kontaktaufgaben

Contact Tasks of Robotic Systems, Mobile Legged Robots, Industrial Manipulators, Service Operations, Robot's Locomotion, Adaptive Control, Impedance/Force Control

Diet of the ichthyofauna associated with marginal vegetation of a mangrove forest in southeastern Brazil

The objective of this study was to analyze the diet of fish species that use the mangrove vegetation for shelter and feeding in a river southeastern Brazil. The fieldwork, including collecting and underwater observations, was carried out in the dry (July and August 2004) and in the rainy season (February and March 2005) in order to assess the existence of seasonal variation in the diets. Seven kinds of food items were consumed, two of plant origin and five of animal origin. Crustaceans predominated in the diet of most species, either in the form of unidentified fragments or discriminated in eight groups. The predominance of species using mainly a single food source (crustaceans, principally Ostracoda and Tanaidacea) and the existence of seasonal variation in the diets of some species became very evident in the analysis food niche breadth, with a predominance of dietary specialists. In the Rio da Fazenda mangrove, the submersed marginal vegetation was used by the ichthyofauna as a locale for foraging, and principally as cover by bottom-feeding species. These species may be using the vegetation for protection from aerial and aquatic predators, or even from the pull of the current during the turn of the tide. In the study area, the great diversity of crustaceans constitutes an important food source for most fish species which adjusted their diet according to seasonal changes in food availability and to interactions with other species.

A propósito de Hipermembrana de Marcel•lí Antúnez Roca

Treball dividit en quatre parts: 1.- Recorregut epistemológic dels performances de Marcel•lí Antúnez fins a Hipermembrana. 2.- Breu exploració dels diversos camps des dels quals s'aborda l'estudi de l'obra de l'artista dividits en dos vessants: a)- Món viu: explora el biològic, la carn i el cos. b)- Món inert: explora la tecnologia, el posthumà, els robots, cyborgs i androides, el cyberpunk i el postcyberpunk. 3.- Breu exposició de l'actual sistema de treball de Marcel•lí Antúnez, la sistematúrgia. 4.- A partir de la problemàtica perceptiva que comporta el treball de l'artista s'esbossen unes primeres conclusions.

Control remoto (web) de un robot Aibo

El robot Aibo disposa de la llibreria Aibo Remote Framework per controlar-lo remotament mitjançant un PC i una xarxa inalàmbrica, també per accedir a informació d'estat del robot, o per veure les imatges que l'Aibo capta. Combinant Remote Framework i php s'ha creat una aplicació web que permet controlar Aibos diferents remotament per Internet, així com tenir accés a les imatges subjectives de cadascun dels Aibos. A més, la tecnologia existent d'streaming permet que l'aplicació web tingui un vídeo incrustat que possibilita veure en directe els Aibos mitjançant una càmera web enfocada cap a ells.

Programación de un robot autónomo: diseño, construcción, programación e integración de un robot autónomo en el entorno Pyro

En aquest projecte, s'ha dissenyat, construït i programat un robot autònom, dotat de sistema de locomoció i sensors que li permeten navegar sense impactar en un entorn controlat. Per assolir aquests objectius s'ha dissenyat i programat una unitat de control que gestiona el hardware de baix volum de dades amb diferents modes d'operació, abstraient-lo en una única interfície. Posteriorment s'ha integrat aquest sistema en l'entorn de robòtica Pyro. Aquest entorn permet usar i adaptar, segons es necessiti, eines d'intel·ligència artificial ja desenvolupades.