Method for controlling the orientation of a solar tracker based on cartographic models

The invention claimed is: 1. A method for controlling an orientation of a solar tracker, the method comprising: receiving solar luminance data from a plurality of photosensitive cells disposed above the solar tracker; comparing the received solar luminance data to a database, the database comprising a plurality of cloud coverage models, each of the cloud coverage models corresponding to an inclination angle; matching the received solar luminance data with a cloud coverage model from the plurality of cloud coverage models; and changing an angle of the solar tracker to correspond with the inclination angle of the matched cloud coverage model; wherein the plurality of cloud coverage models includes at least: (a) a zero cloud coverage model having a direct inclination angle determined based on a position of a Sun, and (b) a widespread cloud coverage model having an associated inclination angle that is different from the direct inclination angle determined based on the position of the Sun. 2. The method of claim 1 wherein changing the angle of the solar tracker to correspond with the inclination angle of the matched cloud coverage model is performed only if an energy consumption necessary to change the angle of the solar tracker is less than energy gains made by changing the angle of the solar tracker. 3. The method of claim 1 wherein changing the angle of the solar tracker to correspond with the inclination angle of the matched cloud coverage model is performed only after consideration of one or more of the following: (a) energy consumption necessary to change the angle of the solar tracker to the inclination angle of the matched cloud coverage model, (b) wear on mechanical members of the solar tracker while changing the angle of the solar tracker to the inclination angle of the matched cloud coverage model, and (c) displacement speed of the solar tracker when changing the angle of the solar tracker to the inclination angle of the matched cloud coverage model. 4. The method of claim 1 wherein the plurality of cloud coverage models further includes a fine cloud coverage model, the fine cloud coverage model having a corresponding inclination angle between that of the direct inclination angle determined based on the position of the Sun and a horizontal position of the solar tracker. 5. The method of claim 1 further comprising translating the received solar luminance data into a mapping of solar luminance according to different elevation angles (θi), wherein changing the angle of the solar tracker to correspond with the inclination angle of the matched cloud coverage model includes determining the inclination angle based on a distribution of the solar luminance on the mapping and the distribution of the solar luminance in the cloud coverage models. 6. The method of claim 5 , wherein the zero-cloud coverage model corresponds to a cartographic model in which the solar luminance is at least equal to 80% of a maximum value of the solar luminance within 30 degrees of the direct inclination angle, and wherein the widespread cloud coverage model corresponds to a cartographic model in which the solar luminance has a low value and a high value within an angular sector greater than 150 degrees, wherein the low value is at least 50% of the high value, wherein the high value is less than 50% of the maximum value, and wherein the high value is associated with an elevation angle more than 20 degrees from the direct inclination angle. 7. The method according to claim 6 , wherein the cloud coverage models further include a fine cloud coverage model having an associated inclination angle corresponding to an intermediate angle between the direct inclination angle and a horizontal position of the solar tracker, and wherein the fine cloud coverage model corresponds to a cartographic model in which the solar luminance has a low value and a high value within an angular sector greater than 150 degrees, wherein a difference between the low value and the high value is lower than 50% of the high value, and wherein the high value is associated with an elevation angle within 20 degrees of the direct inclination angle. 8. The method according to claim 6 , wherein the cloud coverage models further include an irregular cloud coverage model corresponding to the direct inclination angle, and wherein the irregular cloud coverage model corresponds to a cartographic model in which the solar luminance is at least 50% of the maximum value within an angular sector smaller than 30 degrees around the direct inclination angle, and in which the solar luminance is at least 20% of the maximum value within an angular sector smaller than 30 degrees around another inclination angle. 9. The method of claim 1 , further comprising: determining that no cloud coverage model matches the received solar luminance data; and in response to determining that no cloud coverage model matches the received solar luminance data, changing the angle of the solar tracker to the direct inclination angle determined based on the position of the Sun. 10. A solar tracker comprising: a fixed structure; a platform supporting at least one solar collector, the platform being rotatably actuatable on the fixed structure by an actuation system; a memory storing a plurality of cloud coverage models, each of the cloud coverage models corresponding to an inclination angle; and a controller coupled to the memory and the actuation system, wherein the controller is configured to: receive solar luminance data from a plurality of photosensitive cells disposed above the solar tracker; compare the received solar luminance data to the plurality of cloud coverage models; match the received solar luminance data with a cloud coverage model; and change an angle of the solar tracker to correspond with the inclination angle of the matched cloud coverage model; wherein the plurality of cloud coverage models includes: a zero cloud coverage model having a direct inclination angle determined based on a position of a Sun, and a widespread cloud coverage model having an associated inclination angle that is different from the direct inclination angle determined based on the position of the Sun.