Automated creation of semantically-enriched diagnosis models using time series data of temperatures collected by a network of sensors

What is claimed is: 1. A method for automatically generating a semantic diagnosis model from a list of data points, the method comprising: sensing, by using a network of sensors, a time series of temperatures of a room; receiving, by a computer system, the time series of temperatures from the network of sensors, to be used to create a semantic diagnosis model; automatically creating, by the computer system, the semantic diagnosis model based on the received time series of temperatures, the automatically created diagnosis model reflecting rules that determine one or more potential causes of one or more abnormalities associated with one or more conditions in the room, including creating a plurality of models in sequence including said semantic diagnosis model, including creating a semantic data point model comprising the time series of temperatures semantically annotated, creating variables representing physical conditions indicated by the semantically annotated temperatures, generating from the semantic data point model and the created variables a semantic variable model comprising a data representation of the created variables, and using the semantic variable model in the creating said diagnosis model; determining, by the computer system and based on the received time series of temperatures, that the room has an abnormal temperature; and determining, by the computer system using the diagnosis model and said rules, one or more potential causes of the abnormal temperature, including mapping one of the created variables to said abnormal temperature, said one of the created variables being positively correlated in the diagnosis model with said abnormal temperature. 2. The method according to claim 1 , further comprising: semantically annotating the time series of temperatures from the network of sensors. 3. The method according to claim 1 , wherein the creating variables representing physical conditions includes: automatically creating semantic variables having values that represent conditions in the room. 4. The method according to claim 1 , further comprising: automatically deriving relationships between the variables. 5. The method according to claim 3 , wherein the creating variables representing physical conditions includes: creating semantic variables that represent normal and abnormal conditions of the room, the created diagnosis model computing the rules based on the created semantic variables. 6. The method according to claim 1 , further comprising: determining a relationship between the created variables and a dependency of the one or more potential causes of the one or more abnormalities associated with the one or more conditions. 7. The method of claim 1 , further comprising: providing and using a database that stores a plurality of pre-determined semantic concepts and rules. 8. A method for automatically creating a parameterized, semantic diagnosis model, the method comprising: sensing, by using a network of sensors, a real-time series of temperatures of a room; receiving, by a computer system, the real-time time series of temperatures, from the network of sensors, associated with a diagnosis model; creating, by the computer system, based on the received time series of temperatures, the semantic diagnosis model, including creating a plurality of models in sequence including said semantic diagnosis model, including creating a semantic data point model comprising the time series of temperatures semantically annotated, creating variables representing physical conditions indicated by the semantically annotated temperatures, generating from the semantic data point model and the created variables a semantic variable model comprising a data representation of the created variables, and using the semantic variable model in the creating said diagnosis model, parameterizing the diagnosis model, the parameterized diagnosis model mapping one or more potential causes or actual causes to a condition of the room and enabling, based on the mapping, a user or system to identify the one or more potential causes or the actual causes of the condition of the room; determining, by the computer system and based on the received time series of temperatures, that the room has an abnormal temperature; and determining, by the computer system using the diagnosis model and said rules, one or more potential causes of the abnormal temperature, including mapping one of the created variables to said abnormal temperature, said one of the created variables being positively correlated in the diagnosis model with said abnormal temperature. 9. The method according to claim 8 , wherein the creating the diagnosis model further includes: analyzing a real-time time series of temperatures to extract parameters of the diagnosis model using statistical or data mining. 10. An apparatus for automatically generating a semantic diagnosis model on a computer system from a list of data points, the apparatus comprising: a memory device; a processor coupled to the memory device, wherein the processor is configured to perform: receiving a time series of temperatures, from a network of sensors in a room, to be used to create a semantic diagnosis model; and automatically creating the semantic diagnosis model on the computer system based on the received time series of temperatures, the automatically created diagnosis model reflecting rules that determine one or more potential causes of one or more abnormalities associated with one or more conditions in a system the room, including creating a plurality of models in sequence including said semantic diagnosis model, including creating a semantic data point model comprising the time series of temperatures semantically annotated, creating variables representing physical conditions indicated by the semantically annotated temperatures, generating from the semantic data point model and the created variables a semantic variable model comprising a data representation of the created variables, and using the semantic variable model in the creating said diagnosis model; determining, based on the received time series of temperatures, that the room has an abnormal temperature; and determining, by using the diagnosis model and said rules, one or more potential causes of the abnormal temperature, including mapping one of the created variables to said abnormal temperature, said one of the created variables being positively correlated in the diagnosis model with said abnormal temperature. 11. The apparatus according to claim 10 , wherein the processor is configured to perform: automatically creating semantic variables having values that represent conditions in the room. 12. The apparatus according to claim 10 , wherein the processor is configured to perform: automatically deriving relationships between the variables. 13. The apparatus according to claim 10 , wherein the processor is configured to perform: creating semantic variables that represent normal and abnormal conditions of the room, the created diagnosis model computing the rules based on the created semantic variables. 14. The apparatus according to claim 10 , wherein the processor is configured to perform: determining a relationship between the created semantic variables and a dependency of the one or more potential causes of the one or more abnormalities associated with the one or more conditions. 15. The apparatus of claim 10 , wherein the processor is configured to perform: providing and using a database that stores a plurality of pre-determined semantic concepts and rules. 16. An apparatus for automa