time evaluation
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2022 ◽  
pp. 1208-1221
Author(s):  
Gülseren Yürcü ◽  
Ülker Çolakoğlu

In this study, the concepts related to leisure and wellness perceptions will be discussed in order to provide the work-life balance of tourism workers. With a descriptive analysis, it will be discussed how leisure time evaluation and wellness perception contribute to the work-life balance of tourism employees as strategies to cope with work and non-work problems. The fact that the work-life balance of tourism employees is at an optimum level is of great importance for the tourism industry where business factor and service quality are critical. Factors such as uncertainty environment, low labor morale, and high turnover rate constitute the general business life characteristics of tourism employees. As a result, the effect of leisure and wellness perceptions of tourism employees on coping with these factors and establishing work-life balance will be discussed in the light of related literature.


Author(s):  
Prashanth Kotturi

AbstractEvaluation has to reflect the evolving priorities of development and measure progress on their achievement. At the same time, evaluation must also incorporate newer demands from within the field such as increasing equity focus in evaluations, gender mainstreaming, and human rights. Environment and climate change became mainstreamed into the programming of development organizations following the Rio Earth Summit in 1992 and formation of financing mechanisms such as the Global Environment Facility (GEF) in 1991. This chapter reflects on how the Independent Office of Evaluation (IOE) of the International Fund for Agricultural Development (IFAD) addressed the growing demands on the evaluation function in terms of incorporating concerns on environment and climate within existing methodological frameworks, and also adapting its methodology to meet internal and external evaluation demands. The chapter considers how evolving methodologies, methods, and tools have helped IFAD overcome these issues.


2021 ◽  
pp. 009365022110593
Author(s):  
Emma Rodero ◽  
Lucía Cores-Sarría

Studies in different languages have identified a broadcast speaking style, a particular manner that broadcasters have of reading news. This speaking style is characterized by an emphatic intonation with a fast speech rate easily recognizable by listeners. Some authors have stated that messages in this style are not positively perceived by listeners, as it is repetitive and regular, but there is no empirical data to support this conclusion, nor has the style been analyzed with physiological measures. The physiological approach has some advantages, such as a more objective assessment and real-time evaluation. Therefore, this study aims to analyze the effectiveness, adequacy, and physiological response of this broadcast style compared to a narrative pattern. We combined self-report with physiological measures. Fifty-six participants listened to six news pieces in both styles and with two voices, male and female. They had to rate the effectiveness and adequacy of the news while we measured their physiological responses (heart rate and electrodermal activity). The results showed that news conveyed through the broadcast style elicited less cognitive resource allocation and emotional arousal than the narrative pattern, but there were no significant differences in self-report evaluations.


2021 ◽  
Vol ahead-of-print (ahead-of-print) ◽  
Author(s):  
Tamour Zubair ◽  
Muhammad Usman ◽  
Tiao Lu

PurposeThe purpose of this offered research is to articulate a multifaceted kind of highly unstable initial perturbation and further analyze the performance of the plasma particles for time-fractional order evaluation.Design/methodology/approachFor this purpose, the authors designed specific geometry and further interpreted it into the mathematical model using the concepts of the Vlasov Maxwell system. The suggested algorithm is based on the finite-difference and spectral estimation philosophy. The management of time and memory in generic code for computational purposes is also discussed.FindingsThe main purpose is to analyze the fractional behavior of plasma particles and also the capability of the suggested numerical algorithm. Due to initial perturbations, there are a lot of sudden variations that occurred in the formulated system. Graphical behavior shows that SR parameter produces devastation as compared to others. The variation of fractional parameter between the defend domain demonstrates the hidden pictures of plasma particles. The design scheme is efficient, convergent and has the capability to cover the better physics of the problem.Practical implicationsPlasma material is commonly used in different areas of science. Therefore, in this paper, the authors increase the capability of the mathematical plasma model with specific geometry, and further suitable numerical algorithm is suggested with detailed physical analysis of the outcomes. The authors gave a new direction to study the performance of plasma particles under the influence of LASER light.Originality/valueIn the recent era, science has produced a lot of advancements to study and analyze the physical natural process, which exist everywhere in the real word. On behalf of this current developments, it is now insufficient to study the first-order time evaluation of the plasma particles. One needs to be more precise and should move toward the bottomless state of it, that is, macroscopic and microscopic time-evaluation scales, and it is not wrong to say that there exits a huge gap, to study the time evaluation in this discussed manner. The presented study is entirely an advanced and efficient way to investigate the problem into the new directions. The capability of the proposed algorithm and model with fractional concepts can fascinate the reader to extend to the other dimensions.


Author(s):  
Kun Yao ◽  
Shuangshuang Fan ◽  
Weichun Ge ◽  
Xingshuo Li ◽  
Huanhuan Luo ◽  
...  

In order to ensure the safety and stability of the new energy power system, many power units will be maintained at low-load state for a long time during peak-load regulation in China. However, the partial arc admission of the nozzle governing mode will cause uneven temperature distribution in the circumferential direction after GS, which will affect real-time thermal stress of the rotor. Toward this end, this paper proposes a real-time evaluation method of thermal stress for rotors in low-load conditions. First of all, the solution boundary conditions of thermal stress model can be obtained by designing the measuring points arrangement after GS, which comprehensively takes into account the uneven temperature distribution of GS under low-load conditions. In the meantime, various punching schemes are analyzed by ANSYS, which used to analyze the influence of cylinder structure strength caused by the new measuring point punching of each scheme. The result shows that the punching impact on the stress and deformation of cylinder is not obvious, which has a great significance to reduce minimum technical output and improve peak governing capability of thermal power unit.


2021 ◽  
Author(s):  
Van Nam Tran ◽  
Fazlurrahman Khan ◽  
Won Han ◽  
Van Gia Truong ◽  
Young Mog Kim ◽  
...  

Author(s):  
Luis Hernández-Rodríguez ◽  
Fernanda Bellolio ◽  
Daniel Cabrera ◽  
Alicia E. Mattson ◽  
Derek VanMeter ◽  
...  

2021 ◽  
pp. 106503
Author(s):  
Yuping Hu ◽  
Ye Li ◽  
Helai Huang ◽  
Jaeyoung Lee ◽  
Chen Yuan ◽  
...  

2021 ◽  
Vol 23 (Supplement_G) ◽  
Author(s):  
Vincenzo Pettillo ◽  
Gaetano Artiola

Abstract Aims CARMAT is a new fully implantable device that simulates heart function. CARMAT has three characteristics that allow a physiological simulation that is at the top of biomedical engineering: it is blood-compatible for the use of bovine pericardium; it is pulsatile because it has hydraulic pumps that mimic systole and diastole; it is capable of self-regulating with the physiological needs of the patient. CARMAT has four biological valves that allow the intake of cardioaspirin avoiding the use of Coumadin and continuous blood draw. CARMAT also has two hybrid membranes with an internal part formed by bovine pericardium and an external polyurethane membrane; CARMAT has self-regulation sensors that adapt the system to the patient’s efforts. The operation is relatively simple because the rollers placed inside move the silicondressingstely and so it pushes the walls creating systole and diastole not synchronously as it normally happens but asynchronously, one ventricle at a time. Evaluation of the patient’s haemodynamics, monitoring of vital parameters, dressings of the drive-line, and psychological state. Methods and results Training in the field by the manufacturer due to the absence of material in literature. Since it was the first CARMAT implantation in Italy, we tried to combine experience with the clinical practice of other artificial hearts. The patient was weaned from anesthesia early and extubated; the patient did not show neurological damage. Psychologically, the artificial heart was accepted without any problems by the patient, the drive line had no infections, and the patient was discharged quickly. Conclusions The CARMAT system appears to be the one that best simulates the physiology of the heart because it involves fewer complications than other artificial hearts. This device is used as a bridge to transplant, but research and continuous studies tend to transform it as a therapy to end for patients who leave the transplant list and therefore the possibility of having a heart transplant.


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