Tool and work piece vibrations measurement - a review

Tool condition monitoring is one of the important aspects in machining process to improve tool life. It comprises three important steps namely machining data acquisition, data analysis and decision making. Vibration in metal cutting has direct impact on the tool life as well as surface roughness. The present study focused on measurement of vibration during the machining process. Data acquisition is made by using various types of sensors. A wide variety of technologies like contact and non contact sensors have been used for real time data acquisition of tool or work piece vibrations. Research works carried out by many authors is highlighted in measurement of cutting tool and machine tool vibrations using different sensors. Influence of various input parameters like tool geometry, feed, speed and depth of cut on the magnitude of vibrations is discussed. Influence of vibration on surface roughness, tool life and power consumption is reviewed. Three dimensional vibration measurement with single Laser Doppler Vibrometer is also covered for precise analysis of vibration

Low bit Rate Video Quality Analysis Using NRDPF-VQA Algorithm

In this work, we propose NRDPF-VQA (No Reference Distortion Patch Features Video Quality Assessment) model aims to use to measure the video quality assessment for H.264/AVC (Advanced Video Coding). The proposed method takes advantage of the contrast changes in the video quality by luminance changes. The proposed quality metric was tested by using LIVE video database. The experimental results show that the new index performance compared with the other NR-VQA models that require training on LIVE video databases, CSIQ video database, and VQEG HDTV video database. The values are compared with human score index analysis of DMOS

Performance Analysis of No Reference Image quality based on Human Perception

In this work, a No-Reference objective image quality assessment based on NRDPF-IQA metric and classification based metric are tested using LIVE database, which consisting of Gaussian white noise, Gaussian blur, Rayleigh fast fading channel, JPEG compressed images, JPEG2000 images. We plot the Spearman’s Rank Order Correlation Coefficient [SROCC] between each of these features and human DMOS from the LIVE-IQA database using our proposed method to ascertain how well the features correlate with human judgement quality. The analysis of the testing and training is done by SVM model. The proposed method shows better results compared with the earlier methods. Finally, the results are generated by using MATLAB.DOI:http://dx.doi.org/10.11591/ijece.v4i6.678

Preference Number Based Taguchi-Utility Method for the Optimization of Multiple Responses

In the present study a multi-objective optimization approach called taguchi-utility method is employed to find the optimal process parameters in turning of AA7075 material. Cutting speed, feed and depth of cut were taken as the process parameters at three different levels. Taguchi’s standard L9 (3^3) orthogonal array has been followed for conducting the experiments. Utility method converts the multi-responses into a single equivalent response in terms of utility index. ANOVA is employed to find the contribution of the process parameters and it is found that depth of cut has the high influence on the overall utility index.

A prospective study on clinical profile and incidence of acute kidney injury due to hair dye poisoning

Background: Globally suicides are mounting at an alarming rate over the last few decades thus claiming the most productive age group of the society. Developing country like India is no exception to this needless increasing toll.Methods: This study was a prospective observational study with 31 patients recruited at Osmania General Hospital between November 2011 – October 2013. Patients of alleged hair dye ingestion admitted in MICU were taken up for study after the exclusion criteria were ruled out. Informed consent was obtained from every patient or patient’s relatives. All routine laboratory investigations were done basing on standard clinical procedures and protocols and patient related clinical information were recorded on the prepared proforma from the time of hospital admission till discharge or death. The presence of AKI was defined and graded as per the RIFLE criteria.Results: The present work examines 31 cases of suicidal ingestion of hair dye, out of which males were 6 (19.35%) and females were 25 (80.64%). It was observed that the tendency to commit suicide was more in the age group 21 -30 years with males (30%) and females (70%). 19% of total patients who ingested more than 50 ml of dye had developed Acute Kidney injury requiring hemodialysis. Upon treatment about 58% of patients were discharged from hospital in good general health condition, Four patients expired due to respiratory complications with pneumonia, ARDS, sepsis and ARF.Conclusions: So in current scenario of emerging hair dye poisoning, it is imperative for a timely intervention by reducing the time of admission in hospital and also early management by clinicians is the need of an hour

Structural Effects of Various Commonly used Disinfectant Solutions on Gutta-Percha: An Atomic Force Microscopic Study

Introduction: Gutta-percha cones can be contaminated by various ways. Literature revealed several methods for rapid decontamination of gutta-percha cones in dentistry. Atomic force microscope (AFM) is a well-established methodology for structural characterization of materials. Aim: The purpose of the study is to evaluate the effects of 5% sodium hypochlorite 2% chlorhexidine, 2.2% glutaraldehyde, 6% hydrogen peroxide on the surface structure of standardizedgutta-percha cones in their respective cold sterilization times 1, 10, 15, 10 minutes respectively as found in many studies. Materials and methods: Forty standardized gutta-percha cones (ISO standardized size 60) were cut 3 mm from the tip, attached to a glass base and immersed in 5% sodium hypochlorite, 2% chlorhexidine, 2.2% glutaraldehyde, 6% hydrogen peroxide for 1, 10, 15, 10 minutes. After this, the samples were positioned in the atomic force microscope. Theanalyses were performed between 1 and 2 mm from the tip after each period of immersion in NaOCl. Gutta-percha cone without any NaOCl treatment were used as control. Root mean square (RMS) parameters for contact mode imaging variations were measured. Results: The differences between RMS values were testedby ANOVA with Fisher’s protected LSD test for multiple comparisons (p < 0.05). Aggressive deteriorative effects on gutta-percha cone elasticity were observed for 5.25% NaOCl at 1 minute when compared to the control (p < 0.05). In addition, 2% chlorhexidine has caused topographic changes after 15 minutes when compared to the control (p < 0.05). Conversely, 2.2% glutaraldehyde, 6% hydrogen peroxide solution did cause minimal alteration on topography or elasticity of gutta-percha cone structure when compared to the control (p > 0.05). Conclusion: Six percent hydrogen peroxide and 2.2% glutaraldehyde are safe alternative for chair side decontamination of gutta-percha cones when compared to 5.25% NaOCl and 2% chlorhexidine.&nbsp

ARE THE SIDE EFFECTS OF PARACETAMOL BOOSTED BY CAFFEINE??

Paracetamol (acetaminophen) with caffeine is a combination medicine indicated for the temporary relief of pain and discomfort associated with a number of conditions such as headache or muscle pain. Paracetamol has a narrow safety margin and there are number of risks associated with paracetamol. It is only safe and effective when used according to directions on OTC (Over- The-Counter) and Rx labelling. However, long-term use of paracetamol increases the risk of kidney and liver failure and makes people more vulnerable to high blood pressure and strokes.  Chronic or excessive administration of caffeine has been implicated in a range of dysfunctions involving the liver, renal system, gastrointestinal system, and musculature. A patient taking the combination of paracetamol with caffeine may be more likely to experience adverse effects than to get improved analgesia, compared with paracetamol alone. Keywords: Paracetamol, Caffeine, OTC, Hepatic ToxicityÂ

Assessment of ground water quality in an industrial agglomeration of Visakhapatnam, A. P

ABSTRACT Ground water is increasingly used for domestic, agricultural, industrial and other activities. Quality of water is the most important factor for any use; be it domestic or any other purposes. Indiscriminate use of ground water deteriorates the quality and quantity of water. The present work reports the physico-chemical characteristics of the ground waters collected from an industrialized urban agglomeration of Visakhapatnam city, Andhra Pradesh. The physicochemical parameters include pH, Turbidity, Conductivity, Total Dissolved Solids, Chlorides, Sulphates, Total Hardness, Calcium, Magnesium, Total Alkalinity, Nitrates and Fluorides. Though the data show that majority of the values are compatible with the maximum allowable standards recommended by BIS, still in depth studies are to be carried out to decide its suitability for safe drinking and domestic use. It is possible that the concentration of the dissolved impurities may increase further if the recommended norms for discharging industrial effluents are not adhered

A new-fangled connection of UPQC tailored power device from wind farm to weak-grid

A significant portion of wind power conversion systems worldwide comprise wind farms (WFs) that use Squirrel Cage Induction Generator (SCIG) and are directly linked to the power grid. In facilities that generate electrical energy at a moderate level, WFs are connected by means of distribution systems that use medium voltage (MV). It is not uncommon for such a system to produce a scenario in which the amount of electricity generated corresponds to the grid’s transit volume. When a wind farm’s wind power generation system is connected to a weak grid, the lack of potential control of the Point of Common Coupling (PCC) is a primary issue. This strategy is called a “Wind Farm with Weak Grid Connection.” Therefore, the amalgamation of weak grids, fluctuating electricity from wind, and variations in load on the system cause disruptions in the PCC voltage, further degrading the Power Quality (PQ) and the WF stability. Either the control method at the production level or the compensating strategies at the PCC level can improve this situation. If wind farms are built on SCIG and are directly linked to the grid, it is essential to utilise the last substitute. The technology known as Custom Power Devices (CUPS), proved extremely helpful for this type of application. This study presents a compensation technique based on a specific CUPS device, known as the Unified Power Quality Compensator (UPQC), as a possible solution. The potential terminals of WF needed to be regulated, and the voltage fluctuations on the grid side required to be reduced, so a custom-made control strategy for the UPQC device was designed internally. The control of power, such as active and reactive in the UPQC’s series and shunt converters, as well as the transmission of power via the UPQC DC-Link between converters, are the foundation of the internal control strategy that has been developed. Compared to other bespoke tactics that use reactive power, this strategy increases the UPQC’s capability to provide compensation. The suggested study calculates THD using a FUZZY controller. The results are compared to PI controller results. Simulation findings show how the suggested compensating strategy can minimise THD values and improve wind farm power and stability. The simulations suggest that the proposed compensating strategy enhances WF power and stability