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An optimum start system for determining the optimum start time of a temperature control system within a building so that energy can be conserved by operating the temperature control system at reduced energy levels during periods of non-occupancy of the building and by starting the temperature contro

An optimum start system for determining the optimum start time of a temperature control system within a building so that energy can be conserved by operating the temperature control system at reduced energy levels during periods of non-occupancy of the building and by starting the temperature control system an amount of lead time prior to the beginning of occupancy of said building wherein the amount of lead time is selected to bring space temperature within the building within a comfort range by the start of occupancy, the optimum start system including a space temperature sensor for sensing space temperature within the building, an outdoor air temperature sensor for sensing outdoor air temperature external to the building, and a controller connected to the space temperature sensor, the outdoor air temperature sensor and the temperature control system for determining the lead time as a function of an accuracy factor based upon the accuracy of a prior lead time and as a function of both outdoor air temperature and space temperature.

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1. An aptimum start system for determining the optimum start time of a temperature control system within a building so that energy can be conserved by operating the temperature control system at reduced energy levels during periods of non-occupancy of the building and by starting the temperature con

1. An aptimum start system for determining the optimum start time of a temperature control system within a building so that energy can be conserved by operating the temperature control system at reduced energy levels during periods of non-occupancy of the building and by starting the temperature control system an amount of lead time prior to the beginning of occupancy of said building wherein the amount of lead time is selected to bring space temperature within said building within a comfort range by the start of occupancy, siad optimum start system comprising: space temperature sensing means for sensing space temperature within said building; outdoor air temperature sensing means for sensing outdoor air temperature external to the building; and, controller means connected to said space temperature sensing means, said outdoor air temperature sensing means, and said temperature control system for determining said lead time as a function of a correction factor derived by averaging the accuracy of the lead time of the current day and a correction factor for at least a prior day, said correction factor of said prior day being given a predetermined weight with regard to the accuracy of the current lead time, and as a function of the temperature sensed by one of said temperature sensing means. 2. The optimum start system of claim 1 wherein said controller means includes means for determining said correction factor according to the following equation: ##EQU## where A represents an accuracy quantity, MC is a quantity proportional to the accuracy of the latest lead time, LT is the latest lead time, and M* is a correction factor from a prior day. 3. The optimum start system of claim 2 wherein said controller means includes means for determining a weighted correction factor according to the equation: ##EQU## where M is the weighted correction factor. 4. An optimum start system for determining the optimum start time of a temperature control system within a building so that energy can be conserved by operating the temperature control system at reduced energy levels during periods of non-occupancy of the building and by starting the temperature control system an amount of lead time prior to the beginning of occupancy of said building wherein the amount of lead time is selected to bring space temperature within said building within a comfort range by the start of occupancy, said optimum start system comprising: space temperature sensing means for sensing space temperature within said building: outdoor air temperature sensing means for sensing outdoor air temperature external to the building; and, controller means connected to said space temperature sensing means, said outdoor air temperature sensing means, and said temperature control system for determining said lead time as a function of a correction factor based upon the accuracy of at least a prior lead time and as a function of both outdoor air temperature and space temperature, wherein said controller means includes means for determining lead time by the following equation: ##EQU## where LT is lead time, CLIM is the desired temperature, SPT is the space temperature, DC is an arbitrary predetermined design condition temperature, OADB is the outdoor temperature, and M is the correction factor. 5. The optimum start system of claim 4 wherein said controller means includes means for establishing a range of temperatures as the desired temperature, the range having a high limit and a low limit, wherein CLIM is the high limit during summer operation and the low limit during winter operation. 6. The optimum start system of claim 5 wherein said controller means includes means for determining said correction factor as a weighted average based upon at least a prior correction factor. 7. The optimum start system of claim 6 wherein said controller means includes means for determining said correction factor according to the following equation: ##EQU## where A represents an accuracy quantity, MC is a quantity proportional to the accuracy of the latest lead time, LT is the latest lead time, and M* is a correction factor from a prior day. 8. The optimum start system of claim 7 wherein said controller means includes means for determining a weighted correction factor according to the equation: ##EQU## where M is the weighted correction factor. 9. An optimum start system for determining the optimum start time of a temperature control system within a building so that energy can be conserved by operating the temperature control system at reduced energy levels during periods of non-occupancy of the building and by starting the temperature control system an amount of lead time prior to the beginning of occupancy of said building wherein the amount of lead time is selected to bring space temperature within said building within a comfort range by the start of occupancy, said optimum start system comprising: space temperature sensing means for sensing space temperature within said building; outdoor air temperature sensing means for sensing outdoor air temperature external to the building; and, controller means connected to said space temperature sensing means, said outdoor air temperature sensing means, and said temperature control system for determining said lead time as a function of a correction factor based upon the accuracy of at least a prior lead time and as a function of both outdoor air temperature and space temperature, wherein said controller means includes means for determining said correction factor as a weighted average based upon at least a prior correction factor and means for determining said correction factor according to the following equation: ##EQU## where A represents an accuracy quantity, MC is a quantity proportional to the accuracy of the latest lead time, LT is the latest lead time, and M* is a correction factor from a prior day. 10. The optimum start system of claim 9 wherein said controller means includes means for determining a weighted correction factor according to the equation: ##EQU## where M is the weighted correction factor. 11. An optimum start system for determining the optimum start time of a temperature control system within a building so that energy can be conserved by operating the temperature control system at reduced energy levels during periods of non-occupancy of the building and by starting the temperature control system an amount of lead time prior to the beginning of occupancy of said building wherein the amount of lead time is selected to bring space temperature within said building within a comfort range by the start of occupancy, said optimum start system comprising: space temperature sensing means for sensing space temperature within said building; outdoor air temperature sensing means for sensing outdoor air temperature external to the building; and, controller means connected to said space temperature sensing means, said outdoor air temperature sensing means, and said temperature control system for determining said lead time according to three functions, a first function which is related to the difference between a desired comfort limit temperature and space temperature, a second function based upon the ratio of two quantities, the first quantity based upon a desired comfort limit temperature and the second quantity being based upon outdoor air temperature, and a third function defined as a correction factor which is based upon the accuracy of at least one prior lead time. 12. The optimum start system of claim 11 wherein said controller means includes means for determining said correction factor as a weighted average based upon at least a prior correction factor. 13. The optimum start system of claim 12 wherein said controller means includes means for determining said correction factor according to the following equation: ##EQU## where A represents an accuracy quantity, MC is a quantity proportional to the accuracy of the latest lead time, LT is the latest lead time, and M* is a correction factor from a prior day. 14. The optimum start system of claim 13 wherein said controller means includes means for determining a weighted correction factor according to the equation: ##EQU## where M is the weighted correction factor. 15. The optimum start system of claim 14 wherein said controller means includes means for determining lead time by the following equation: ##EQU## where LT is lead time, CLIM is a desired temperature, SPT is the space temperature, DC is an arbitrary predetermined design condition temperature, OADB is the outdoor temperature, and M is the correction factor.