The Experts below are selected from a list of 24 Experts worldwide ranked by ideXlab platform
Wendy E. Mackay - One of the best experts on this subject based on the ideXlab platform.
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An Augmented Stripboard for Air Traffic Control
2007Co-Authors: Lionel Mdini Wendy, Wendy E. MackayAbstract:This paper describes an augmented reality prototype that precisely tracks the position of paper flight strips used by air traffic controllers. By embedding resistors with different values into slightly modified plastic stripholders and inserting contacts along the sides of a Stripboard frame, we can detect the exact position of individual stripholders (and their corresponding paper flight strips). When placed over a graphics tablet or touch sensitive screen, and properly calibrated, we have a simple, inexpensive solution for identifying paper flight strips and linking them to capture and display technologies. KEYWORDS: Augmented Reality, paper flight strips INTRODUCTION Air traffic controllers still use pre-printed strips of paper, called flight strips, to track their planes. Writing on them, manipulating them, and organizing them on a Stripboard helps controllers memorize information on the strips and build a mental representation of the air traffic. Paper flight strips are easy to..
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an augmented Stripboard for air traffic control
1998Co-Authors: Wendy E. Mackay, Orly Sud, Ura CnrsAbstract:This paper describes an augmented reality prototype that precisely tracks the position of paper flight strips used by air traffic controllers. By embedding resistors with different values into slightly modified plastic stripholders and inserting contacts along the sides of a Stripboard frame, we can detect the exact position of individual stripholders (and their corresponding paper flight strips). When placed over a graphics tablet or touch sensitive screen, and properly calibrated, we have a simple, inexpensive solution for identifying paper flight strips and linking them to capture and display technologies.
Ura Cnrs - One of the best experts on this subject based on the ideXlab platform.
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an augmented Stripboard for air traffic control
1998Co-Authors: Wendy E. Mackay, Orly Sud, Ura CnrsAbstract:This paper describes an augmented reality prototype that precisely tracks the position of paper flight strips used by air traffic controllers. By embedding resistors with different values into slightly modified plastic stripholders and inserting contacts along the sides of a Stripboard frame, we can detect the exact position of individual stripholders (and their corresponding paper flight strips). When placed over a graphics tablet or touch sensitive screen, and properly calibrated, we have a simple, inexpensive solution for identifying paper flight strips and linking them to capture and display technologies.
Lionel Mdini Wendy - One of the best experts on this subject based on the ideXlab platform.
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An Augmented Stripboard for Air Traffic Control
2007Co-Authors: Lionel Mdini Wendy, Wendy E. MackayAbstract:This paper describes an augmented reality prototype that precisely tracks the position of paper flight strips used by air traffic controllers. By embedding resistors with different values into slightly modified plastic stripholders and inserting contacts along the sides of a Stripboard frame, we can detect the exact position of individual stripholders (and their corresponding paper flight strips). When placed over a graphics tablet or touch sensitive screen, and properly calibrated, we have a simple, inexpensive solution for identifying paper flight strips and linking them to capture and display technologies. KEYWORDS: Augmented Reality, paper flight strips INTRODUCTION Air traffic controllers still use pre-printed strips of paper, called flight strips, to track their planes. Writing on them, manipulating them, and organizing them on a Stripboard helps controllers memorize information on the strips and build a mental representation of the air traffic. Paper flight strips are easy to..
Orly Sud - One of the best experts on this subject based on the ideXlab platform.
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an augmented Stripboard for air traffic control
1998Co-Authors: Wendy E. Mackay, Orly Sud, Ura CnrsAbstract:This paper describes an augmented reality prototype that precisely tracks the position of paper flight strips used by air traffic controllers. By embedding resistors with different values into slightly modified plastic stripholders and inserting contacts along the sides of a Stripboard frame, we can detect the exact position of individual stripholders (and their corresponding paper flight strips). When placed over a graphics tablet or touch sensitive screen, and properly calibrated, we have a simple, inexpensive solution for identifying paper flight strips and linking them to capture and display technologies.
Pellicer Grau, Héctor Miguel - One of the best experts on this subject based on the ideXlab platform.
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Diseño y construcción de un Amplificador de Bajo Ruido para un front-end
'Universitat Politecnica de Valencia', 2017Co-Authors: Pellicer Grau, Héctor MiguelAbstract:The aim of this project is the design and build of a Low-Noise Amplifier (LNA) in discrete format that will operate around 125MHz. It will have a low input impedance and a 50¿ output impedance. Other parameters as gain or noise figure will need to be optimized during the design process in order to get the best performance available. The core of the system will consist of a JFET transconductance stage followed by a common base bipolar current buffer. Input and output biasing and matching will be an important part of the design. It is expected to be built physically into a Stripboard to be tested and compared with the simulation outputs.El objetivo de este proyecto es el diseño y construcción de un Amplificador de Bajo Ruido (LNA) en formato discreto que operará en la banda de los 125MHz. Dispondrá de una baja impedancia de entrada y una impedancia de salida de 50¿. El resto de parámetros como la ganancia o la figura de ruido deberán ser optimizados durante el proceso de diseño con tal de lograr el mayor rendimiento disponible. El núcleo del dispositivo consistirá en una etapa de transconductancia JFET seguida de un búfer de corriente bipolar en modo base común. Una parte crucial del diseño será la correcta polarización y adaptación de las entradas y salidas del LNA. Hecho esto, el dispositivo será construido de forma física en una placa perforada para su testeo y comprobación, y se compararán los resultados medidos con los arrojados mediante el software de simulación.Pellicer Grau, HM. (2017). Diseño y construcción de un Amplificador de Bajo Ruido para un front-end. http://hdl.handle.net/10251/91816TFG
