Method, a device, a system, a computer program and a computer program product for determining information about efficiency of an inductive charging system, having a primary coil embedded in a road infrastructure

The invention claimed is: 1. A method for determining information about an efficiency of an inductive charging system, comprising: receiving an output from one or more devices that measure power transferred through one or more primary coils embedded in a road infrastructure; receiving, from a vehicle moving on said road infrastructure, an output from another device that measures power transferred through a secondary coil located in said vehicle; and determining a first inductive coupling efficiency component attributed to said road infrastructure from a total efficiency based on a second inductive coupling efficiency component attributed to a position of said secondary coil relative to said one or more primary coils and of a third inductive coupling efficiency component attributed to an electric circuit comprising said secondary coil. 2. The method according to claim 1 , wherein said one or more primary coils comprise a first primary coil, and wherein said third inductive coupling efficiency component is determined from a first value of said total efficiency determined when an electromagnetic field generated by one of said first primary coil or said secondary coil penetrates the other coil at least partially, and a predetermined first value of said first inductive coupling efficiency component attributed to said road infrastructure at a location of said first primary coil. 3. The method according to claim 2 , wherein said one or more primary coils comprise a second primary coil, and wherein a second value of said first inductive coupling efficiency component attributed to said road infrastructure at the location of said first primary coil is determined from a second value of said total efficiency determined when an electromagnetic field generated by one of said second primary coil or said secondary coil penetrates the other coil at least partially. 4. The method according to claim 2 , further comprising: determining said second inductive coupling efficiency component from the geometry of said first primary coil as a function of a position of said secondary coil relative to a location of said one or more primary coils; storing at least one pair of values of location and respective second inductive coupling efficiency component in a characteristic curve; and determining said second inductive coupling efficiency component from storage by extrapolation or interpolation of said pair of values of said characteristic curve. 5. The method according to claim 1 , further comprising determining said total efficiency based on measured information about a first power transfer through said one or more primary coils and measured information about a second power transfer through said secondary coil. 6. The method according to claim 5 , wherein said measured information is determined from measurements taken at essentially a same time. 7. The method according to claim 1 , further comprising: determining at least two values of said total efficiency while said secondary coil is passing a trajectory over said one or more primary coils when movement of said secondary coil relative to said one or more primary coils is detected; and determining said second inductive coupling efficiency component based on said at least two values of said total efficiency. 8. The method according to claim 1 , wherein said one or more primary coils are mounted near said road infrastructure in a way that an electromagnetic field generated by said one or more primary coils penetrates a predetermined area above said road infrastructure. 9. A device for determining information about an efficiency of an inductive charging system, said device being adapted to: receive an output from one or more devices adapted to measure power transferred through one or more primary coils embedded in a road infrastructure; receive, from a vehicle moving on said road infrastructure, an output from another device that measures power transferred through a secondary coil located in said vehicle; and determine a first inductive coupling efficiency component attributed to said road infrastructure from a total efficiency based on a second inductive coupling efficiency component attributed to a position of said secondary coil relative to said primary coil and of a third inductive coupling efficiency component attributed to an electric circuit comprising said secondary coil. 10. A system for determining information about an efficiency of an inductive charging system, comprising: a primary coil embedded in a road infrastructure; a first power meter connected to said primary coil, said first power meter being adapted to measure electrical power transferred through said primary coil; a secondary coil located in a vehicle moving on said road infrastructure; a second power meter connected to said secondary coil, said second power meter being adapted to measure electrical power transferred through said secondary coil; and a device adapted to receive an output from said first power meter and receive an output from said second power meter sent from said vehicle to determine a first inductive coupling efficiency component attributed to said road infrastructure from a total efficiency based on a second inductive coupling efficiency component attributed to a position of said secondary coil relative to said primary coil and of a third inductive coupling efficiency component attributed to an electric circuit comprising said secondary coil. 11. A non-transitory computer-readable medium storing computer executable instructions for determining information about an efficiency of an inductive charging system, comprising: receiving an output from a first device that measures power transferred through a primary coil embedded in a road infrastructure; receiving, from a vehicle moving on said road infrastructure, an output from a second device that measures power transferred through a secondary coil located in said vehicle; and determining a first inductive coupling efficiency component attributed to said road infrastructure from a total efficiency based on a second inductive coupling efficiency component attributed to a position of said secondary coil relative to said primary coil and of a third inductive coupling efficiency component attributed to an electric circuit comprising said secondary coil.