Hardware Implementation of Intelligent Temperature Control System

Question: Explain about the Hardware Implementation of Intelligent Temperature Control System? Answer: State Diagram Modelling of temperature control system The control systems of a house usually consist of a thermostat, which measures the room temperature, and compare the temperature with the set value by the user. If the measured temperature of the house falls from the desired set temperature, the thermostat send a signal to the heating sub-station to initiate the heating process. The heating device increases the air temperature of the house to balance the control system. Similarly, if the thermostat measures the temperature, which is higher than the set value, the thermostat sends a signal to stop the heating system. In order to balance the temperature of the house to the set value by the user, the thermostats initialise the cooling sub system to lower down the temperature. It is an automatic management of the temperature in a house (Bharadwaj and Das, 2012). The state diagram of the temperature control system represents a linear path starting with a control signal or set point temperature by the user. The thermostat controller or a sensor measures the temperature, which receives signal from controller error. Considering the forward path, there are certain logic according to strategies which control the system of heating and cooling process of the devices. This temperature control system is a closed loop system. In the system, feedback signal closes the loop. The system is operating continuously in a closed loop and the controller to have effective output reduces the error in temperature (Cao, Ye and Li, 2015). Behaviour of a thermostat Multi-view model of an organization The process of modelling is very difficult for a complex system to conclude in a single model. The multi-view modelling is a process where different aspects of the complex organised system are captured by different methodologies or views. The consistency of an organised system is hampered by the different views of the process and overlap degree causes a unbalanced structure. Therefore, it is very essential to instantiate the overall framework to eliminate the basic problems in multi-view modelling. The process of modelling within a abstract formal structure requires a finite-state process of setting and key verification of the problems. For a complex detailing structure, the designing and modelling team mainly deals with the incomplete and partial information of the system. It is easier for the team to manage the system separately. In this context, grouping option in a multi-view model helps to manage the element easily and effectively. With the development of complex computer and or ganisation, system has initiated different modelling tools to simplify the structure according to the complexity by adopting different techniques like visualisation and specialisation functionality. The developed structure of the model decomposed into different views consistent. This grouping choice helps in suitable visualisation, which is essential for applicability and stability (Magnor et al., n.d.) References Bharadwaj, D. and Das, L. (2012).Hardware Implementation Of Intelligent Temperature Control System. Saarbrucken: LAP LAMBERT Academic Publishing. Cao, J., Ye, Q. and Li, P. (2015). Resistance Furnace Temperature Control System Based on OPC and MATLAB.Measurement and Control, 48(2), pp.60-64. Chowdhry, B. (2012).Emerging trends and applications in information communication technologies. Berlin: Springer. Magnor, M., Grau, O., Sorkine-Hornung, O. and Theobalt, C. (n.d.).Digital representations of the real world.