37 research outputs found
Zaller-Deffuant model of mass opinion
Recent formulation of the Zaller model of mass opinion is generalized to
include the interaction between agents. The mechanism of interaction is close
to the bounded confidence model. The outcome of the simulation is the
probability distribution of opinions on a given issue as dependent on the
mental capacity of agents. Former result was that a small capacity leads to a
strong belief. Here we show that an intensive interaction between agents also
leads to a consensus, accepted without doubts.Comment: 9 pages, 10 figures (in 23 eps files), RevTeX
Zaller-Deffuant Model of Mass Opinion
Recent formulation of the Zaller model of mass opinion is generalized to include the interaction between agents. The mechanism of interaction is close to the bounded confidence model. The outcome of the simulation is the probability distribution of opinions on a given issue as dependent on the mental capacity of agents. Former result was that a small capacity leads to a strong belief. Here we show that an intensive interaction between agents also leads to a consensus, accepted without doubts.Mass Opinion; Computer Simulations; Social Networks;
How many parameters to model states of mind ?
A series of examples of computational models is provided, where the model aim
is to interpret numerical results in terms of internal states of agents minds.
Two opposite strategies or research can be distinguished in the literature.
First is to reproduce the richness and complexity of real world as faithfully
as possible, second is to apply simple assumptions and check the results in
depth. As a rule, the results of the latter method agree only qualitatively
with some stylized facts. The price we pay for more detailed predictions within
the former method is that consequences of the rich set of underlying
assumptions remain unchecked. Here we argue that for computational reasons,
complex models with many parameters are less suitable.Comment: 5 pages, no figures; Proceedings 27th European Conference on
Modelling and Simulation ECMS Webjorn Rekdalsbakken, Robin T. Bye, Houxiang
Zhang (Editors), 201
The effect of 16-minute thermal stress and 2-minute cold water immersion on the physiological parameters of young sedentary men
This study aimed to determine the effect of 16 minutes of thermal stress followed by 2 minutes of cold water immersion on the physiological parameters of fifty-five sedentary men (mean age 20.15±1.30 years), who were exposed to 16 minutes of sauna (temperature: 90-91℃; relative humidity: 14-16%) followed by 2 minutes of cold water immersion (12℃). The participants' somatic characteristics were determined before entering the sauna, and their body mass and blood pressure were measured before and after sauna treatment. Physiological parameters were monitored during the 16-minute sauna session and the 2-minute cold water immersion (CRIO) or shower. The subjects perspired 0.21-0.27 litres during the 18-minute session. Heart rate values did not differ significantly between groups during the 16-minute sauna session, but significantly (p<0.001) lower HR values were noted in the CRIO group than in the control group (68.6:105.7 and 57.5:90.7 bpm). The values of SBP and DBP did not differ significantly between groups before the sauna but were significantly (p<0.001) lower in the CRIO group after sauna (SBP – 122.0:127.3 mmHg, DBP – 89.9:76.3 mmHg). In both groups, the participants remained within the easy effort range during most of the 18-minute session (650.9 and 492.6 s). A 16-minute sauna session followed by 2 minutes of cold water immersion induces a significantly greater decrease in HR and BP (SBP and DBP) than a 16-minute sauna session followed by 30 seconds in the shower and a 90 s resting period. During cold water immersion, HR values often decrease to the bradycardia range. Heart rate increased steadily in both groups.peerReviewe
Correlations between Repeated Use of Dry Sauna for 4 x 10 Minutes, Physiological Parameters, Anthropometric Features and Body Composition in Young Sedentary and Overweight Men:Health Implications
Background. The effect of thermal stress on the physiological parameters of young overweight and sedentary men who sporadically use the sauna remains insufficiently investigated. Aim. The aim of the study was to determine the effect of sauna bathing on the physiological parameters of young overweight, physically inactive men and to test the correlations between physiological parameters versus anthropometric features and body composition parameters. Materials and Methods. Forty-five overweight and sedentary men aged 20.76±2.4 y were exposed to four sauna sessions of 10 minutes each (temperature: 90-91°C; relative humidity: 14-16 %) with four 5-minute cool-down breaks. Body composition was determined before sauna, and body mass and blood pressure were measured before and after sauna. Physiological parameters were monitored during four 10-minute sauna sessions. Results. A significant (p<0.0001) increase in all analyzed physiological parameters was observed during four successive 10-minute sauna sessions. Heart rate, energy expenditure, blood pressure, and body mass loss were most strongly correlated with anthropometric parameters (body mass, body mass index, and body surface area) and body composition parameters (percent body fat, body fat mass, and visceral fat level). The 60-minute treatment resulted in a significant reduction in body mass (0.65 kg). Conclusions. Repeated use of Finnish sauna induces significant changes in the physiological parameters of young sedentary overweight men, and these changes are intensified during successive treatments. Deleterious cardiovascular adaptations were most prevalent in men characterized by the highest degree of obesity and the largest body size