Development of a monitoring and control system for the indoor microclimate
... for its operation. The system has an information and analytical environment that allows you to display data that is convenient for perception and analyze energy consumption.
Tokarev V. V., Pershina A. A.
development, feedback, data collection, microclimate
45-52
An assessment of the role of green belts in creating comfortable microclimatic conditions in summer
... Волгограда // Вестник ВолгГАСУ. Сер. Строительство и архитектура. 2013. Вып. 32 (51). С. 220—228.
Popova I. V., Burak E. E., Vorob’eva Yu. A.
urban climate, global warming, urban heat island, microclimate, thermal comfort, predicted mean vote (PMV), green spaces
47-55
A microclimate control system realization
Interim results of the creation of the climate control system are presented. The algorithmic base of functioning of system is created. The control system of heating is realized.
Tolstel’ O., Churilov A., Nesterov S.
single board computer, wireless sensors, wireless thermostat head, smart house.
44-48
Intelligent control of heat saving and microclimate
Results of the development control unit individual heater and individual room climate are presented.
Nesterov S., Petrov S., Tolstel’ O., Churilov A.
fuzzy controller, mix with the coolant in thermoregulation facade elements of the hydraulic circuit, the control unit, single-board computers.
95-98
Computer models and software and hardware complex climate control with recuperation
... обращения: 10.08.2015).
2. Компания «Доктор воздух». URL: http://doktor-vozduh.ru/page14/
rekuperator-thermobarrier/thermobarrier-r-230-rekuperator-omsk (дата обращения: 10.08.2015).
Tolstel’ O.
fuzzy controller, microclimate, software and hardware, recovery, linguistic variables, membership functions, the control unit, single-board computer.
108-113