Arsi, Irisa2017-09-052017-09-052017-06-20http://hdl.handle.net/11654/25424https://doi.org/10.26041/fhnw-1150Switzerland’s electricity consumption in 2014 was 59.3 TWh (Abrell, 2016) and continues to rise every year. As residential needs for electrical energy increase, so does the demand (Abrell, 2016; Filippini, 2011; IEA, 2012; Zhao et al, 2013). As a result, the necessary energy for meeting the demand cannot be provided by the power grid (Abrell, 2016; Filippini, 2011). The Swiss government has tried by applying new methods in price calculation for electricity to help shift the loads to different times (Abrell, 2016). Nevertheless, over- loadings and blackouts occur several times per year creating high maintenance costs (Abrell, 2016; Filippini, 2011), for the production companies which reflects to the users’ payments as well. On the one hand consumers' demand aims at electrical energy of high quality and reliability (Abrell, 2016), but on the other hand producers’ aim in less maintenance costs. A clear solution is needed for the demand and supply of Switzerland’s grid to balance. A new solution, a new methodology based not entirely in technology but also in the correct use of Information Systems. This paper will describe a new proposal, solution for the Swiss energy production and consumption to balance through energy scheduling and flexible pricing. Smart buildings and smart appliances, will provide users, with an ECO efficient use of the energy through the Information. The users can create their own demand schedule, in accordance to the calculated prices by the combination of RTP and IBR and their actual needs. During Real Time Electricity Pricing (RTP) prices can be generated hourly and transmitted to users. A problem that increases with RTP is that users tend to maximize the use of their appliances during the low peak prices and potentially create overloads, which could lead to instability of the grid or even a power blackout. In order, to avoid such problems, and secure except of flexible prices also reliability and stability for the system, RTP needs to be combined with the Inclining Block Rate (IBR) methodology. During IBR pricing prices can be calculated according to the loads. The combination of the two methodologies give the possibility to the users not only to schedule their energy use by time but loads as well. An important fact that rises through this proposal is the possibility, given to the energy production companies and the government, to balance the maintenance costs which will lead in saving thousands of francs every year by simply involving the end-users in the electric grid operation. Simply by giving the possibility to users to control their appliances’ consumption, for different periods, by reducing their consumption or shift their loads to low peak periods.enRTP Real Time PricingIBR Inclining Block RateDR Demand ResponseIS Information SystemsICT Information Communication TechnologyRTEP Real Time Electricity PricesPAR Power Peak RatioTOU Time of UseTOUR Time of Use PricingCPP Critical Peak PricingkWh Kilowatt- hourTWh Terawatt- hourRES Renewable Energy SourcesWEM Wholesale Energy MarketES Energy SchedulingFBE Free Basic ElectricityTSO Transmission system operatorRA Regulatory authorityElCom Federal Electricity CommissionEMS Energy management systemEMC Energy management controllerAOA Automatically operated applianceMOA Manually operated applianceLOT Length operation timeOTI Operation time interval004 - Computer Wissenschaften, Internet003 - SystemeLoad Control in Real Time Price Prediction11 - Studentische Arbeit