Calculation of pull-in voltages for carbon-nanotube-based nanoelectromechanical switches

In this paper, some morphological transformations are used to detect the background in images characterized by poor lighting. Lately, contrast image enhancement has been carried out by the application of two operators based on the Weber's law notion. The first operator employs information from block analysis, while the second transformation utilizes the opening by reconstruction, which is employed to define the multibackground notion. The objective of contrast operators consists in normalizing the grey level of the input image with the purpose of avoiding abrupt changes in intensity among the different regions. Finally, the performance of the proposed operators is illustrated through the processing of images with different backgrounds, the majority of them with poor lighting conditions.

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Single x-ray transmission system for bone mineral density determination

Jiménez-Mendoza

Espinosa-Arbeláez

Giraldo-Betancur

et al. 2011

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Bones are the support of the body. They are composed of many inorganic compounds and other organic materials that all together can be used to determine the mineral density of the bones. The bone mineral density is a measure index that is widely used as an indicator of the health of the bone. A typical manner to evaluate the quality of the bone is a densitometry study; a dual x-ray absorptiometry system based study that has been widely used to assess the mineral density of some animals' bones. However, despite the success stories of utilizing these systems in many different applications, it is a very expensive method that requires frequent calibration processes to work properly. Moreover, its usage in small species applications (e.g., rodents) has not been quite demonstrated yet. Following this argument, it is suggested that there is a need for an instrument that would perform such a task in a more reliable and economical manner. Therefore, in this paper we explore the possibility to develop a new, affordable, and reliable single x-ray absorptiometry system. The method consists of utilizing a single x-ray source, an x-ray image sensor, and a computer platform that all together, as a whole, will allow us to calculate the mineral density of the bone. Utilizing an x-ray transmission theory modified through a version of the Lambert-Beer law equation, a law that expresses the relationship among the energy absorbed, the thickness, and the absorption coefficient of the sample at the x-rays wavelength to calculate the mineral density of the bone can be advantageous. Having determined the parameter equation that defines the ratio of the pixels in radiographies and the bone mineral density [measured in mass per unit of area (g/cm(2))], we demonstrated the utility of our novel methodology by calculating the mineral density of Wistar rats' femur bones.

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Development of a Real Time Energy Monitoring Platform User-Friendly for Buildings

Trejo-Perea

Ríos-Moreno

Castañeda-Miranda

et al. 2013

Procedia Technology

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System Electrical Power Monitoring Manifold Based on Software Development and an Embedded System for Intelligent Buildings

et al. 2011

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D. Vargas-Vázquez

Optimal sizing of renewable hybrids energy systems: A review of methodologies

Morphological Background Detection and Enhancement of Images With Poor Lighting

Single x-ray transmission system for bone mineral density determination

Development of a Real Time Energy Monitoring Platform User-Friendly for Buildings

System Electrical Power Monitoring Manifold Based on Software Development and an Embedded System for Intelligent Buildings

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