Electrolyte Magnetohydrondyamics Flow Sensing in an Open Annular Channel-A Vision System for Validation of the Mathematical Model.

Magnetohydrodynamics (MHD) is becoming more popular every day among developers of applications based on microfluidics, such as “lab on a chip” (LOC) and/or “micro-total analysis systems” (micro-TAS). Its physical properties enable fluid manipulation for tasks such as pumping, networking, propelling, stirring, mixing, and even cooling without the need for mechanical components, and its non-intrusive nature provides a solution to mechanical systems issues. However, these are not easy tasks.

Comparison between Different Types of Sensors Used in the Real Operational Environment Based on Optical Scanning System.

The present paper describes the experimentation in a controlled environment and a real environment using different photosensors, such as infrared light emitting diode (IRLED-as receiver), photodiode, light dependent resistor (LDR), and blue LED for the purpose of selecting those devices, which can be employed in adverse conditions, such as sunlight or artificial sources. The experiments that are described in this paper confirmed that the blue LED and phototransistor could be used as a photosensor of an Optical Scanning System (OSS), because they were less sensitive to sunlight radiation. Moreover, they are appropriate as reference sources that are selected for the experiment (blue LED flashlight and light bulb).

Quality of life impact related to foot health in a sample of sea workers.

Background: People working at sea show a marked presence of musculoskeletal pain as well as an important coexistence of pain in diverse anatomical regions, which is believed to have a harmful effect on the quality of life related to foot health. The aim is to describe and compare the impact in a sample of sea workers and people who work on the ground in the light of the scores obtained with regard foot health and health in general.

Methods: A sample of 94 participants of a mean age of 41.

Optimal experimental designs for accelerated failure time with Type I and random censoring.

Proportional Hazards models have been widely used to analyze survival data. In many cases survival data do not verify the assumption of proportional hazards. An alternative to the PH models with more relaxed conditions are Accelerated Failure Time models.