20,252 research outputs found
Asset Prices and Time-Varying Risk
Observers have often characterized asset markets as being subject to periods of tranquility and periods of turbulence. Until recently, however, researchers were unable to produce closed-form asset pricing formulas in a model environment of time-varying risk. Some work by Abel provided us with the insights needed to produce such formulas. This paper gives an exposition of how to develop the formulas in an, environment where the formulas may be obtained using a simple extension of standard tools. While the paper is intended mainly as an exposition of new work, it also contains a report on the asset market effect of fiscal reform. IC is found that entering a period of week coordination between government spending end taxing (tax rate) policy is good for stock prices.
Interactive student engagement using wireless handheld devices
This paper presents an initial design of a pilot wireless Classroom Communication System (CCS) used for continuous and interactive engagement of students aiming at enhancing student critical thinking, extending attention span and enabling better student assessment. The system was designed mostly for engineering students and is intended to be used in lectures, tutorials or laboratories. The design should ultimately enable students to use, amongst other software, standard engineering packages such as MATLAB, PSpice, or Electronic WorkBench to construct designs, perform simulations and obtain answers to design problems using just wireless handheld pocket PCs. The system is based upon a CSCW system originally designed to be used anytime during lectures or tutorials and may involve the guidance and personal intervention of a lecturer or tutor. It is intended to support several modes and allows group or one-to-one personal tutoring. The system may also serve as a means of assessing individual student performance and in assisting lecturing staff with other task
Versatile Data Acquisition and Controls for Epics Using Vme-Based Fpgas
Field-Programmable Gate Arrays (FPGAs) have provided Thomas Jefferson
National Accelerator Facility (Jefferson Lab) with versatile VME-based data
acquisition and control interfaces with minimal development times. FPGA designs
have been used to interface to VME and provide control logic for numerous
systems. The building blocks of these logic designs can be tailored to the
individual needs of each system and provide system operators with read-backs
and controls via a VME interface to an EPICS based computer. This versatility
allows the system developer to choose components and define operating
parameters and options that are not readily available commercially. Jefferson
Lab has begun developing standard FPGA libraries that result in quick turn
around times and inexpensive designs.Comment: 3 pages, ICALEPCS 2001, T. Allison and R. Foold, Jefferson La
Recent results from advanced research on space solar cells at NASA
The NASA program in space photovoltaic research and development encompasses a wide range of emerging options for future space power systems, and includes both cell and array technology development. The long range goals are to develop technology capable of achieving 300 W/kg for planar arrays, and 300 W/sq m for concentrator arrays. InP and GaAs planar and concentrator cell technologies are under investigation for their potential high efficiency and good radiation resistance. The Advanced Photovoltaic Solar Array (APSA) program is a near term effort aimed at demonstrating 130 W/kg beginning of life specific power using thin (62 pm) silicon cells. It is intended to be technology transparent to future high efficiency cells and provides the baseline for development of the 300 W/kg array
NASA photovoltaic research and technology
NASA photovoltaic R and D efforts address future Agency space mission needs through a comprehensive, integrated program. Activities range from fundamental studies of materials and devices to technology demonstrations of prototype hardware. The program aims to develop and apply an improved understanding of photovoltaic energy conversion devices and systems that will increase the performance, reduce the mass, and extend the lifetime of photovoltaic arrays for use in space. To that end, there are efforts aimed at improving cell efficiency, reducing the effects of space particulate radiation damage (primarily electrons and protons), developing ultralightweight cells, and developing advanced ray component technology for high efficiency concentrator arrays and high performance, ultralightweight arrays. Current goals that have been quantified for the program are to develop cell and array technology capable of achieving 300 watts/kg for future missions for which mass is a critical factor, or 300 watts/sq m for future missions for which array size is a major driver (i.e., Space Station). A third important goal is to develop cell and array technology which will survive the GEO space radiation environment for at least 10 years
Future mission opportunities and requirements for advanced space photovoltaic energy conversion technology
The variety of potential future missions under consideration by NASA will impose a broad range of requirements on space solar arrays, and mandates the development of new solar cells which can offer a wide range of capabilities to mission planners. Major advances in performance have recently been achieved at several laboratories in a variety of solar cell types. Many of those recent advances are reviewed, the areas are examined where possible improvements are yet to be made, and the requirements are discussed that must be met by advanced solar cell if they are to be used in space. The solar cells of interest include single and multiple junction cells which are fabricated from single crystal, polycrystalline and amorphous materials. Single crystal cells on foreign substrates, thin film single crystal cells on superstrates, and multiple junction cells which are either mechanically stacked, monolithically grown, or hybrid structures incorporating both techniques are discussed. Advanced concentrator array technology for space applications is described, and the status of thin film, flexible solar array blanket technology is reported
Microstructure theory and the foreign exchange market
Foreign exchange ; Microeconomics
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