Thermodynamic Modeling and Analysis of Human Stress Responses

A novel approach based on the second law of thermodynamics is developed to investigate the psychophysiology and quantify human stress level. Two types of stresses (thermal and mental) are examined. A Unified Stress Response Theory (USRT) is developed under the new proposed field of study called Engineering Psychophysiology. The USRT is used to investigate both thermal and mental stresses from a holistic (human body as a whole) and thermodynamic viewpoint. The original concepts and definitions are established as postulates which form the basis for thermodynamic approach to quantify human stress level. An Objective Thermal Stress Index (OTSI) is developed by applying the second law of thermodynamics to the human thermal system to quantify thermal stress or discomfort in the human body. The human thermal model based on finite element method is implemented. It is utilized as a “Computational Environmental Chamber” to conduct series of simulations to examine the human thermal stress responses under different environmental conditions. An innovative hybrid technique is developed to analyze human thermal behavior based on series of human-environment interaction simulations. Continuous monitoring of thermal stress is demonstrated with the help of OTSI. It is well established that the human thermal system obeys the second law of thermodynamics. Further, the OTSI is validated against the experimental data. Regarding mental stress, an Objective Mental Stress Index (OMSI) is developed by applying the Maxwell relations of thermodynamics to the combined thermal and cardiovascular system in the human body. The OMSI is utilized to demonstrate the technique of monitoring mental stress continuously and is validated with the help of series of experimental studies. Although the OMSI indicates the, level of mental stress, it provides a strong thermodynamic and mathematical relationship between activities of thermal and cardiovascular systems of the human body

An Experimental and Computational Study of 2-(3-Oxo-3H-benzof chromen-1-ylmethoxy)-Benzoic Acid Methyl Ester

The various methods for studying polarities are based on the use of probe molecules, whose molecular spectral profile is significantly affected by the polarity of the medium. The absorption and emission spectra and dipole moments (µg and µe) of 2-(3-oxo-3H-benzofchromen-1-ylmethoxy)-benzoic acid methyl ester (2BME) are studied in solvents of different polarities at room temperature. The determination of dipole moments by solvatochromic shift using various relations and the change in dipole moment (�µ) were determined using Stokes shift with the variation of the solvent polarity parameter (ET N). The value of µe greater than µg indicating that the probe is more polar in the higher state. DFT and TDDFT theoretical analysis of dipole moment in the vacuum and with solvent, solvent accessible surface (SAS) and molecular electrostatic potential (MEP) are also performed. © 2017, Springer Science+Business Media, LLC

CoRF : Colorizing Radiance Fields using Knowledge Distillation

Neural radiance field (NeRF) based methods enable high-quality novel-view synthesis for multi-view images. This work presents a method for synthesizing colorized novel views from input grey-scale multi-view images. When we apply image or video-based colorization methods on the generated grey-scale novel views, we observe artifacts due to inconsistency across views. Training a radiance field network on the colorized grey-scale image sequence also does not solve the 3D consistency issue. We propose a distillation based method to transfer color knowledge from the colorization networks trained on natural images to the radiance field network. Specifically, our method uses the radiance field network as a 3D representation and transfers knowledge from existing 2D colorization methods. The experimental results demonstrate that the proposed method produces superior colorized novel views for indoor and outdoor scenes while maintaining cross-view consistency than baselines. Further, we show the efficacy of our method on applications like colorization of radiance field network trained from 1.) Infra-Red (IR) multi-view images and 2.) Old grey-scale multi-view image sequences.Comment: AI3DCC @ ICCV 202

Development of fast dispersing tablets of nebivolol: experimental and computational approaches to study formulation characteristics

Otimizou-se e avaliou-se formulação de comprimidos de dispersão rápida (CDR) de nebivolol, usando planejamento de grade simplex (PGS). Estudou-se a influência do tipo e da concentração de três desintegrantes viz, Ac-Di-Sol, Primojel e Poliplasdona XL, na dureza, friabilidade e tempo de desintegração do comprimido. O gráfico de superfície de resposta e as equações polinomiais foram utilizados para avaliar a influência do polímero nas propriedades do comprimido. Os resultados foram analisados estatisticamente por ANOVA, considerando-se p < 0,05 como estatisticamente significativo. Os resultados revelam que a integridade das fibras e o grau de substituição ótimo no Primojel e Ac-Di-Sol são os principais responsáveis pela dureza do comprimido. O uso de Poliplasdona em maior porcentagem na formulação pode produzir friabilidade elevada. O aumento de Ac-Di-Sol aumenta o tempo de desintegração, mas o aumento da concentração de Primojel na formulação diminui o tempo de desintegração. Isto é, também, evidente no modelo de tempo de desintegração com alto valor de "F" de 14,69 e "p" de 0,0031 (< 0,05). A razão poderia ser que o Primojel tem maiores propriedades de intumescimento e ótima capacidade de hidratação, favorecendo a desintegração rápida do comprimido. Em conclusão, a cuidadosa seleção de um desintegrante para CDR poderia aprimorar suas propriedades. O uso do PGS para o desenvolvimento da formulação poderia simplificar o processo de formulação e reduzir o custo de produção.Formulation of FDT (fast dispersing tablets) of nebivolol was optimized and evaluated using simplex lattice design (SLD). The influence of type and concentration of three disintegrants viz., Ac-Di-Sol, Primojel and Polyplasdone XL on hardness, friability and disintegration time of tablet was studied. Response surface plot and the polynomial equations were used to evaluate influence of polymer on the tablet properties. Results were statistically analyzed using ANOVA, and a p < 0.05 was considered statistically significant. Results reveal that fibrous integrity and optimal degree of substitution in Primojel and Ac-Di-Sol are mainly responsible for the hardness of the tablet. Use of Polyplasdone in higher percentage in tablet formulation may result in high friability. Increase in concentration of Ac-Di-Sol increases the disintegration time but increased concentration of Primojel in the tablet formulation decreases the disintegration time. This is also evident from model terms for disintegration time with a high 'F' value of 14.69 and 'p' value of 0.0031

Synthesis and Biological Evaluation of 4-(3-Hydroxy-Benzofuran-2-yl) Coumarins

Various 4-bromomethylcoumarins (1a-k) were reacted with methyl salicylate to yield 2-(2-oxo-2H-chromen-4-ylmethoxy)-benzoic acid methyl esters (2a-k). Formations of (3a-k) were achieved by using DBU under microwave irradiation. Structures of all the compounds were established on the basis of their spectral data. All the compounds were tested in vitro for their antimicrobial activity and cell cytotoxicity. All the tested compounds (2b-k) and (3a-k) were shown to be better activity against Staphylococcus aureus than the standard Ciprofloxacin. The compound (3k) (R = 6-OMe) was found to be more potent cytotoxic than the standard 5-fluorouracil

A review of commonly performed bariatric surgeries: Imaging features and its complications

Obesity is a disease that has achieved the level that can be considered an epidemic. According to the National Center for Health Statistics data, the prevalence of obesity has increased from 30.5% in 1999-2000 to 42.4% in 2017-2018. During the same period, severe obesity has increased from 4.7% to 9.2%. With the growing prevalence of obesity, related conditions such as coronary artery disease, diabetes, and strokes have also become more prevalent. In the past few years, the need for bariatric surgeries such as laparoscopic Roux-en-Y gastric bypass, sleeve gastrectomy, and laparoscopic adjustable gastric banding has increased considerably. With an increasing number of bariatric surgeries, multiple postoperative complications have become common. In this review, we have attempted to describe normal postsurgical anatomical findings after bariatric surgeries and pictorial review of a few common postoperative complications

Strata-NeRF : Neural Radiance Fields for Stratified Scenes

Neural Radiance Field (NeRF) approaches learn the underlying 3D representation of a scene and generate photo-realistic novel views with high fidelity. However, most proposed settings concentrate on modelling a single object or a single level of a scene. However, in the real world, we may capture a scene at multiple levels, resulting in a layered capture. For example, tourists usually capture a monument's exterior structure before capturing the inner structure. Modelling such scenes in 3D with seamless switching between levels can drastically improve immersive experiences. However, most existing techniques struggle in modelling such scenes. We propose Strata-NeRF, a single neural radiance field that implicitly captures a scene with multiple levels. Strata-NeRF achieves this by conditioning the NeRFs on Vector Quantized (VQ) latent representations which allow sudden changes in scene structure. We evaluate the effectiveness of our approach in multi-layered synthetic dataset comprising diverse scenes and then further validate its generalization on the real-world RealEstate10K dataset. We find that Strata-NeRF effectively captures stratified scenes, minimizes artifacts, and synthesizes high-fidelity views compared to existing approaches.Comment: ICCV 2023, Project Page: https://ankitatiisc.github.io/Strata-NeRF

Some Inequalities for the first General Zagreb Index of Graphs and Line Graphs

The first general Zagreb index Mα1(G) of a graph G is equal to the sum of the αth powers of the vertex degrees of G. For α≥0 and k≥1, we obtain the lower and upper bounds for Mα1(G) and Mα1(L(G)) in terms of order, size, minimum/maximum vertex degrees and minimal non-pendant vertex degree using some classical inequalities and majorization technique, where L(G) is the line graph of G. Also, we obtain some bounds and exact values of Mα1(J(G)) and Mα1(Lk(G)), where J(G) is a jump graph (complement of a line graph) and Lk(G) is an iterated line graph of a graph G

InCl3-​assisted synthesis and cytotoxic studies of some novel heteroaryl thiazoles

Heteroaryl thiazoles were synthesized by the Hantzsch reaction of various α-​bromoketones with aryl thioureas using InCl3 as a catalyst in a shorter reaction time. The synthesized compds. were characterized and screened for their in-​vitro cytotoxic activity against DAL and EAC cells. Compd. I was found to be most effective against DAL cell lines with IC50 value of 15.76 μg​/mL. Compd. II was found to be most effective against EAC cells with IC50 value of 28.73 μg​/mL