Method of docking an electric vehicle for charging

I claim: 1. A method of docking an electric vehicle with a charging station, comprising: collecting data at the electric vehicle; periodically transmitting information, derived at least partly from the collected data, from the electric vehicle to the charging station as the electric vehicle travels from a first location towards the charging station, the transmitted information including: a distance (d) travelled by the electric vehicle from the first location towards the charging station; and a speed (v) of the electric vehicle; receiving the transmitted information at the charging station; computing an incremental distance (Δd) travelled by the electric vehicle in a time interval (Δt) between when the data is collected at the electric vehicle and when the transmitted information is received at the charging station, wherein computing the incremental distance (Δd) includes determining a product of the time interval (Δt) and the received speed (v); calculating a corrected distance (d′) based on the computed incremental distance (Δd) and the received distance (d), wherein calculating the corrected distance (d′) includes calculating the corrected distance as the sum of the received distance (d) and the computed incremental distance (Δd); determining a relative position of the electric vehicle with respect to the charging station based on at least the calculated corrected distance (d′); and automatically connecting a charge head of the charging station with a charging interface of the electric vehicle based on the determined relative position. 2. The method of claim 1 , further including, using the charging station to identify the electric vehicle at the first location as the electric vehicle approaches the charging station, wherein periodically transmitting the information includes initiating the periodic transmission of the information after the identification. 3. The method of claim 2 , wherein identifying the electric vehicle includes reading an identification number of the approaching electric vehicle using a sensor of the charging station. 4. The method of claim 1 , wherein computing the incremental distance (Δd) includes computing the incremental distance (Δd) as a product of the time interval (Δt) and the received speed (v). 5. The method of claim 1 , wherein automatically connecting the charge head includes lowering the charge head to rest on a roof of the electric vehicle when the calculated corrected distance (d′) reaches a predetermined value. 6. The method of claim 5 , wherein automatically connecting the charge head includes lowering the charge head from an initial position to an intermediate pre-deployment position when the calculated corrected distance (d′) reaches a first value, and further lowering the charge head from the intermediate pre-deployment position to rest on the roof when the calculated corrected distance (d′) reaches the predetermined value. 7. The method of claim 5 , further including moving the electric vehicle with the charge head resting on the roof until an electrical signal indicative of electrical contact between the charge head and the electric vehicle is received. 8. The method of claim 7 , further including charging the electric vehicle using the charge head after receiving the electrical signal. 9. The method of claim 1 , further including checking an accuracy of the determined relative position based on structural features of the electric vehicle detected by the charging station. 10. A method of docking an electric vehicle at a charging station, comprising: identifying the electric vehicle at a first location as the electric vehicle approaches the charging station, wherein the identifying includes determining whether the electrical vehicle is supposed to be charged at the charging station; periodically transmitting data packets from the electric vehicle to the charging station, wherein the periodically transmitting includes transmitting successive data packets at a time interval (Δt), the transmitted data packets including: a distance (d) travelled by the electric vehicle from the first location towards the charging station; and a speed (v) of the electric vehicle; computing an incremental distance (Δd) travelled by the electric vehicle in the time interval (Δt); calculating a corrected distance (d′) as a sum of the computed incremental distance (Δd) and the received distance (d); and automatically moving a charge head of the charging station to contact a charging interface of the electric vehicle when the calculated corrected distance (d′) reaches a predetermined value, wherein automatically moving the charge head includes lowering the charge head from an initial position to an intermediate pre-deployment position when the calculated corrected distance (d′) reaches a first value, and further lowering the charge head from the intermediate pre-deployment position to rest on a roof of the electric vehicle when the calculated corrected distance (d′) reaches the predetermined value. 11. The method of claim 10 , wherein computing the incremental distance (Δd) includes determining a product of the time interval (Δt) and the received speed (v). 12. The method of claim 10 , further including moving the electric vehicle with the charge head sliding on the roof until an electrical signal indicative of electrical contact between the charge head and the electric vehicle is received. 13. The method of claim 12 , further including initiating electric current flow from the charge head to the electric vehicle after receiving the electrical signal. 14. A method of docking an electric vehicle at a charging station, the charging station including a charge head configured to make electrical contact with a charging interface positioned on a roof of the vehicle, comprising: identifying the electric vehicle at a first location as the electric vehicle approaches the charging station; periodically transmitting data packets from the electric vehicle to the charging station, wherein the periodically transmitting includes transmitting successive data packets at a time interval (Δt), the transmitted data packets including: a distance (d) travelled by the electric vehicle from the first location towards the charging station; and a speed (v) of the electric vehicle; computing an incremental distance (Δd) travelled by the electric vehicle in the time interval (Δt), wherein computing the incremental distance (Δd) includes computing the incremental distance (Δd) based on a product of the received speed (v) and the time interval (Δt); calculating a corrected distance (d′) based on the computed incremental distance (Δd), wherein calculating the corrected distance (d′) includes calculating the corrected distance (d′) as a sum of the computed incremental distance (Δd) and the received distance (d); detecting structural features on the electric vehicle using one or more sensors located in the charging station; checking an accuracy of the calculated corrected distance (d′) based on the detected structural features; and if the checking indicates that the calculated correct distance (d′) is accurate, automatically lowering the charge head to contact the charging interface of the electric vehicle when the calculated corrected distance (d′) reaches a predetermined value. 15. The method of claim 14 , further including: if the checking indicates that the calculated correct distance (d′) is not accurate, indicating a docking error. 16. The method of claim 14 , wherein automatically lowering the charge head includes lowering the charge head from an initial position to an intermed