"The following article deals with human thermal comfort dilemma. Firstly, the sensor for operative temperature evaluation and than synthetic skin type sensor will be introduced. There is no compact sensor on the market, which can measure operative temperature, so the effort is to develop this kind of sensor. It is necessary to measure more physical quantities, like air temperature, mean radiant temperature, air flow velocity and relative air velocity, to calculate operative temperature. Human thermal comfort does not depend only on environment conditions but also on personal factors, which are different for every human being. It's especially energy expenditure and human clothes thermal resistance."@en . . "RIV/00216305:26210/09:PU84213!RIV10-GA0-26210___" . "Jane\u010Dka, Jan" . "RIV/00216305:26210/09:PU84213" . "347839" . "2"^^ . "26210" . . "Zuth, Daniel" . . "2"^^ . . . . "CZ - \u010Cesk\u00E1 republika" . "LV" . . "Usage of Modern Sensors for Thermal Comfort Determination" . . "2" . . "6"^^ . . . "Usage of Modern Sensors for Thermal Comfort Determination"@en . "Usage of Modern Sensors for Thermal Comfort Determination" . "[53D12C09449D]" . "Usage of Modern Sensors for Thermal Comfort Determination"@en . "Transaction of the V\u0160B-Technical university of Ostrava, Mechanical series" . "P(GD101/09/H050)" . . "Thermal comfort, thermal flux sensor, microcontroller"@en . "1210-0471" . . "The following article deals with human thermal comfort dilemma. Firstly, the sensor for operative temperature evaluation and than synthetic skin type sensor will be introduced. There is no compact sensor on the market, which can measure operative temperature, so the effort is to develop this kind of sensor. It is necessary to measure more physical quantities, like air temperature, mean radiant temperature, air flow velocity and relative air velocity, to calculate operative temperature. Human thermal comfort does not depend only on environment conditions but also on personal factors, which are different for every human being. It's especially energy expenditure and human clothes thermal resistance." . . . .