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{
    // Values of the EPS-forecast for the parameter 164.128
	"164.128": {
		"1": [ 0, 0, .., 0, 0 ], 
		... // members 1 to 50 
        "50": [ 0, 0, .., 0, 0 ],
 		"forecast": [ 0, 0, .., 0, 0 ], // If the forecast is present it will be plotted of the 10 days epsgraph
		"control": [ 0, 0, .., 0, 0 ],  // If the control is present it will be plotted of the 10 days epsgraph
        "steps": [0, 12, ..., 234, 240] // Steps of the forecast
    },
    //Values of the EPS-forecast for another parameter for example 133.128.. This sequence can be repeated 
	"133.128": {
		"1": [ 0, 0, .., 0, 0 ], 
		... // members 1 to 50 
        "50": [ 0, 0, .., 0, 0 ],
 		"forecast": [ 0, 0, .., 0, 0 ], // If the forecast is present it will be plotted of the 10 days epsgraph
		"control": [ 0, 0, .., 0, 0 ],  // If the control is present it will be plotted of the 10 days epsgraph
        "steps": [0, 12, ..., 234, 240] // Steps of the forecast
    },
	 "date": "20120420", // Base date of the forecast.
	"time": "0000" // run of the forecast.
    "deterministic_height": 60.4558563232, // altitude of the grid-point for the deterministic model. Can be used to compute the temperature correction.
    "eps_height": 93.5405273438,// altitude of the grid-point for the eps model. Can be used to compute the temperature correction.
    "height": 61, // altitude of the point in real world. Can be used to compute the temperature correction.
    "land_sea_mask": 0.998962402344, // if < 0.5 we consider it is a sea point, Can be used in the title.
    "location": { // Information about the point, can be used in the title.
        "lat": 51.3883666992,
        "lon": 359.166656494
    } ,
    "points_along_meridian": 320 // Information displayed in the legend.

}

{
    // Values of the EPS-forecast for the parameter 164.128
	"164.128": {
		"1": [ 0, 0, .., 0, 0 ], 
		... // values for the 8 octats of the Rose for each steps defined in steps[]
        "8": [ 0, 0, .., 0, 0 ],
        "steps": [0, 12, ..., 234, 240] // Steps of the forecast
    },
    //Values of the EPS-forecast for another parameter for example 133.128.. This sequence can be repeated 
	"133.128": {
		"1": [ 0, 0, .., 0, 0 ], 
		... // values for the 8 octats of the Rose for each steps defined in steps[]
        "8": [ 0, 0, .., 0, 0 ],	
        "steps": [0, 12, ..., 234, 240] // Steps of the forecast
    },
	 "date": "20120420", // Base date of the forecast.
	"time": "0000", // run of the forecast.   
    "height": 61, // altitude of the point in real world. 
    "land_sea_mask": 0.998962402344, // if < 0.5 we consider it is a sea point, Can be used in the title.
    "location": { // Information about the point, can be used in the title.
        "lat": 51.3883666992,
        "lon": 359.166656494
    } ,
    "points_along_meridian": 320 // Information displayed in the legend.

}

{
    // Values of the EPS-forecast for the parameter 249.128
	"249.140": {
		"east": [ 0, 0, .., 0, 0 ], 
		... //values for the probability of having a easterly wind for each steps defined in steps[],
		 "north": [ 0, 0, .., 0, 0 ], 
        // We expect an entry for each of the main wind directions: 
        // The name of the eight directions are [east, nord, nord_east, nord_west, south, south_east, south_west, west]
        "steps": [0, 12, ..., 234, 240] // Steps of the forecast
    },
   
	 "date": "20120420", // Base date of the forecast.
	"time": "0000", // run of the forecast.   
    "height": 61, // altitude of the point in real world. 
    "land_sea_mask": 0.998962402344, // if < 0.5 we consider it is a sea point, Can be used in the title.
    "location": { // Information about the point, can be used in the title.
        "lat": 51.3883666992,
        "lon": 359.166656494
    } ,
    "points_along_meridian": 320 // Information displayed in the legend.

}

//The wave distribution is done using the eight main directions:[east, nord, nord_east, nord_west, south, south_east, south_west, west]
// Each direction is itself split into 6 categories according the significant wave height, For example, for east, we have 
// [east_one, east_two, east_three, east_four, east_five, east_six]
// each octant is coloured based on the distribution of significant wave height associated with each mean wave direction
{
    // Values of the EPS-forecast for the parameter 230.240
	"230.240": {
	   "east_one": [ 0, 0, .., 0, 0 ], 
		... //values for the probability of having a easterly wave of force 1 for each steps defined in steps[],
	    "east_six": [ 0, 0, .., 0, 0 ], 
        "nord_one": [ 0, 0, .., 0, 0 ], 
		... //values for the probability of having a northerly wave of force one  for each steps defined in steps[],
	    "nord_six": [ 0, 0, .., 0, 0 ], 
        "steps": [0, 12, ..., 234, 240] // Steps of the forecast
	}  "date": "20120420", // Base date of the forecast.
	"time": "0000", // run of the forecast.   
    "height": 61, // altitude of the point in real world. Can be used to compute the temperature correction.
    "land_sea_mask": 0.998962402344, // if < 0.5 we consider it is a sea point, Can be used in the title.
    "location": { // Information about the point, can be used in the title.
        "lat": 51.3883666992,
        "lon": 359.166656494
    } ,
    "points_along_meridian": 320 // Information displayed in the legend.

}

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