Code Context $relevance_color = "color-" . $relevance_id;
$relevance_label = ($can_edit ? ($r['rating']/100) : $relevance_id) . " - " . $relevances[$relevance_id];
$gapanalysis = $view->Url->build(array('controller'=>'gapanalyses')) . "?$param=" . $r[$key]['id'];
$ruleTypes = [
'RATING' => (int) 1,
'MISSION' => (int) 3,
'FILTER' => (int) 2
]
$rules = [
(int) 0 => [
'id' => (int) 2662,
'rule_id' => (int) 3182,
'instrument_id' => (int) 896,
'variable_id' => (int) 27,
'rating' => (int) 560,
'rule' => [
'id' => (int) 3182,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS',
'explanation' => 'VIS channel(s)',
'variable_id' => (int) 27,
'observingmission_id' => null,
'rating' => (int) 560,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 1 => [
'id' => (int) 2663,
'rule_id' => (int) 3183,
'instrument_id' => (int) 896,
'variable_id' => (int) 27,
'rating' => (int) 530,
'rule' => [
'id' => (int) 3183,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in MWIR',
'explanation' => 'MWIR channel(s)',
'variable_id' => (int) 27,
'observingmission_id' => null,
'rating' => (int) 530,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 2 => [
'id' => (int) 2664,
'rule_id' => (int) 3190,
'instrument_id' => (int) 896,
'variable_id' => (int) 27,
'rating' => (int) 500,
'rule' => [
'id' => (int) 3190,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in TIR',
'explanation' => 'TIR channel(s)',
'variable_id' => (int) 27,
'observingmission_id' => null,
'rating' => (int) 500,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 3 => [
'id' => (int) 2665,
'rule_id' => (int) 3200,
'instrument_id' => (int) 896,
'variable_id' => (int) 27,
'rating' => (int) 400,
'rule' => [
'id' => (int) 3200,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in TIR and VIS',
'explanation' => 'VIS and TIR channels',
'variable_id' => (int) 27,
'observingmission_id' => null,
'rating' => (int) 400,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 4 => [
'id' => (int) 2666,
'rule_id' => (int) 3220,
'instrument_id' => (int) 896,
'variable_id' => (int) 27,
'rating' => (int) 300,
'rule' => [
'id' => (int) 3220,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS, MWIR and TIR',
'explanation' => 'VIS, MWIR and TIR channels',
'variable_id' => (int) 27,
'observingmission_id' => null,
'rating' => (int) 300,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 5 => [
'id' => (int) 7576,
'rule_id' => (int) 5060,
'instrument_id' => (int) 896,
'variable_id' => (int) 35,
'rating' => (int) 400,
'rule' => [
'id' => (int) 5060,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=2 channels in the range 10-13 micrometers',
'explanation' => 'TIR window channels to estimate cloud top height from its temperature',
'variable_id' => (int) 35,
'observingmission_id' => null,
'rating' => (int) 400,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 6 => [
'id' => (int) 7577,
'rule_id' => (int) 5070,
'instrument_id' => (int) 896,
'variable_id' => (int) 35,
'rating' => (int) 320,
'rule' => [
'id' => (int) 5070,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=1 channel(s) in each of the ranges 6-8 and 10-13 micrometers',
'explanation' => 'TIR channels in window and water vapour band (for emissivity) to estimate cloud top height from its temperature',
'variable_id' => (int) 35,
'observingmission_id' => null,
'rating' => (int) 320,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 7 => [
'id' => (int) 7578,
'rule_id' => (int) 5260,
'instrument_id' => (int) 896,
'variable_id' => (int) 36,
'rating' => (int) 500,
'rule' => [
'id' => (int) 5260,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=1 channel(s) in the range 10-13 micrometers',
'explanation' => 'TIR window channel(s)',
'variable_id' => (int) 36,
'observingmission_id' => null,
'rating' => (int) 500,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 8 => [
'id' => (int) 7579,
'rule_id' => (int) 5270,
'instrument_id' => (int) 896,
'variable_id' => (int) 36,
'rating' => (int) 400,
'rule' => [
'id' => (int) 5270,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=2 channels in the range 10-13 micrometers',
'explanation' => 'TIR window channels',
'variable_id' => (int) 36,
'observingmission_id' => null,
'rating' => (int) 400,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 9 => [
'id' => (int) 7580,
'rule_id' => (int) 5280,
'instrument_id' => (int) 896,
'variable_id' => (int) 36,
'rating' => (int) 310,
'rule' => [
'id' => (int) 5280,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=1 channel(s) in each of the ranges 10-13 and 6-8 micrometers',
'explanation' => 'TIR channels in window and water vapour band (for emissivity)',
'variable_id' => (int) 36,
'observingmission_id' => null,
'rating' => (int) 310,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 10 => [
'id' => (int) 7581,
'rule_id' => (int) 5290,
'instrument_id' => (int) 896,
'variable_id' => (int) 36,
'rating' => (int) 210,
'rule' => [
'id' => (int) 5290,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=2 channels in the range 10-13 micrometers and >=1 channel(s) in the range 6-8 micrometers',
'explanation' => 'TIR channels in window and water vapour band (for emissivity)',
'variable_id' => (int) 36,
'observingmission_id' => null,
'rating' => (int) 210,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 11 => [
'id' => (int) 7582,
'rule_id' => (int) 5400,
'instrument_id' => (int) 896,
'variable_id' => (int) 37,
'rating' => (int) 400,
'rule' => [
'id' => (int) 5400,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS and TIR',
'explanation' => 'VIS and TIR channels',
'variable_id' => (int) 37,
'observingmission_id' => null,
'rating' => (int) 400,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 12 => [
'id' => (int) 7583,
'rule_id' => (int) 5410,
'instrument_id' => (int) 896,
'variable_id' => (int) 37,
'rating' => (int) 430,
'rule' => [
'id' => (int) 5410,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in MWIR and TIR',
'explanation' => 'MWIR and TIR channels',
'variable_id' => (int) 37,
'observingmission_id' => null,
'rating' => (int) 430,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 13 => [
'id' => (int) 7584,
'rule_id' => (int) 5420,
'instrument_id' => (int) 896,
'variable_id' => (int) 37,
'rating' => (int) 310,
'rule' => [
'id' => (int) 5420,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS, MWIR and TIR',
'explanation' => 'VIS, MWIR and TIR channels',
'variable_id' => (int) 37,
'observingmission_id' => null,
'rating' => (int) 310,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 14 => [
'id' => (int) 7585,
'rule_id' => (int) 6480,
'instrument_id' => (int) 896,
'variable_id' => (int) 52,
'rating' => (int) 440,
'rule' => [
'id' => (int) 6480,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in windows (3.5-4 and 10-13 micrometers) and water vapour band (6-8 micrometers)',
'explanation' => 'MWIR and TIR channels including the water vapour band',
'variable_id' => (int) 52,
'observingmission_id' => null,
'rating' => (int) 440,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 15 => [
'id' => (int) 7586,
'rule_id' => (int) 6800,
'instrument_id' => (int) 896,
'variable_id' => (int) 60,
'rating' => (int) 520,
'rule' => [
'id' => (int) 6800,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS',
'explanation' => 'VIS channels',
'variable_id' => (int) 60,
'observingmission_id' => null,
'rating' => (int) 520,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 16 => [
'id' => (int) 7587,
'rule_id' => (int) 6810,
'instrument_id' => (int) 896,
'variable_id' => (int) 60,
'rating' => (int) 500,
'rule' => [
'id' => (int) 6810,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the MWIR range 3.5-4 micrometers',
'explanation' => 'MWIR channels',
'variable_id' => (int) 60,
'observingmission_id' => null,
'rating' => (int) 500,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 17 => [
'id' => (int) 7588,
'rule_id' => (int) 6820,
'instrument_id' => (int) 896,
'variable_id' => (int) 60,
'rating' => (int) 510,
'rule' => [
'id' => (int) 6820,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the TIR range 10-13 micrometers',
'explanation' => 'TIR channels',
'variable_id' => (int) 60,
'observingmission_id' => null,
'rating' => (int) 510,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 18 => [
'id' => (int) 7589,
'rule_id' => (int) 6830,
'instrument_id' => (int) 896,
'variable_id' => (int) 60,
'rating' => (int) 440,
'rule' => [
'id' => (int) 6830,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS and the TIR range 10-13 micrometers',
'explanation' => 'VIS and TIR channels',
'variable_id' => (int) 60,
'observingmission_id' => null,
'rating' => (int) 440,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 19 => [
'id' => (int) 7590,
'rule_id' => (int) 6840,
'instrument_id' => (int) 896,
'variable_id' => (int) 60,
'rating' => (int) 430,
'rule' => [
'id' => (int) 6840,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS and the MWIR range 3.5-4 micrometers',
'explanation' => 'VIS and MWIR channels',
'variable_id' => (int) 60,
'observingmission_id' => null,
'rating' => (int) 430,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 20 => [
'id' => (int) 7591,
'rule_id' => (int) 6850,
'instrument_id' => (int) 896,
'variable_id' => (int) 60,
'rating' => (int) 420,
'rule' => [
'id' => (int) 6850,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS, in the MWIR range 3.5-4 micrometers and the TIR range 10-13 micrometers',
'explanation' => 'VIS, MWIR and TIR channels',
'variable_id' => (int) 60,
'observingmission_id' => null,
'rating' => (int) 420,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 21 => [
'id' => (int) 7592,
'rule_id' => (int) 6870,
'instrument_id' => (int) 896,
'variable_id' => (int) 60,
'rating' => (int) 400,
'rule' => [
'id' => (int) 6870,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS, in the MWIR range 3.5-4 micrometers and the TIR range 10-13 micrometers, flown in GEO',
'explanation' => 'VIS, MWIR and TIR channels. Frequent sampling (GEO) enables early detection',
'variable_id' => (int) 60,
'observingmission_id' => null,
'rating' => (int) 400,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 22 => [
'id' => (int) 7593,
'rule_id' => (int) 7010,
'instrument_id' => (int) 896,
'variable_id' => (int) 61,
'rating' => (int) 520,
'rule' => [
'id' => (int) 7010,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the TIR range 10-13 micrometers',
'explanation' => 'TIR channels',
'variable_id' => (int) 61,
'observingmission_id' => null,
'rating' => (int) 520,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 23 => [
'id' => (int) 7594,
'rule_id' => (int) 7020,
'instrument_id' => (int) 896,
'variable_id' => (int) 61,
'rating' => (int) 400,
'rule' => [
'id' => (int) 7020,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the MWIR range 3.5-4 micrometers',
'explanation' => 'MWIR channels',
'variable_id' => (int) 61,
'observingmission_id' => null,
'rating' => (int) 400,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 24 => [
'id' => (int) 7595,
'rule_id' => (int) 7030,
'instrument_id' => (int) 896,
'variable_id' => (int) 61,
'rating' => (int) 510,
'rule' => [
'id' => (int) 7030,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the TIR range 10-13 micrometers, flown in GEO',
'explanation' => 'TIR channels. Frequent sampling (GEO) enables early detection',
'variable_id' => (int) 61,
'observingmission_id' => null,
'rating' => (int) 510,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 25 => [
'id' => (int) 7596,
'rule_id' => (int) 7040,
'instrument_id' => (int) 896,
'variable_id' => (int) 61,
'rating' => (int) 220,
'rule' => [
'id' => (int) 7040,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the MWIR range 3.5-4 micrometers and the TIR range 10-13 micrometers',
'explanation' => 'MWIR and TIR channels',
'variable_id' => (int) 61,
'observingmission_id' => null,
'rating' => (int) 220,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 26 => [
'id' => (int) 7597,
'rule_id' => (int) 7060,
'instrument_id' => (int) 896,
'variable_id' => (int) 61,
'rating' => (int) 200,
'rule' => [
'id' => (int) 7060,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the MWIR range 3.5-4 micrometers and the TIR range 10-13 micrometers, flown in GEO',
'explanation' => 'MWIR and TIR channels. Frequent sampling (GEO) enables early detection',
'variable_id' => (int) 61,
'observingmission_id' => null,
'rating' => (int) 200,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 27 => [
'id' => (int) 7598,
'rule_id' => (int) 7110,
'instrument_id' => (int) 896,
'variable_id' => (int) 62,
'rating' => (int) 520,
'rule' => [
'id' => (int) 7110,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the TIR range 10-13 micrometers',
'explanation' => 'TIR channels',
'variable_id' => (int) 62,
'observingmission_id' => null,
'rating' => (int) 520,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 28 => [
'id' => (int) 7599,
'rule_id' => (int) 7120,
'instrument_id' => (int) 896,
'variable_id' => (int) 62,
'rating' => (int) 400,
'rule' => [
'id' => (int) 7120,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the MWIR range 3.5-4 micrometers',
'explanation' => 'MWIR channels',
'variable_id' => (int) 62,
'observingmission_id' => null,
'rating' => (int) 400,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 29 => [
'id' => (int) 7600,
'rule_id' => (int) 7130,
'instrument_id' => (int) 896,
'variable_id' => (int) 62,
'rating' => (int) 510,
'rule' => [
'id' => (int) 7130,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the TIR range 10-13 micrometers, flown in GEO',
'explanation' => 'TIR channels. Frequent sampling (GEO) enables early detection',
'variable_id' => (int) 62,
'observingmission_id' => null,
'rating' => (int) 510,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 30 => [
'id' => (int) 7601,
'rule_id' => (int) 7140,
'instrument_id' => (int) 896,
'variable_id' => (int) 62,
'rating' => (int) 220,
'rule' => [
'id' => (int) 7140,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the MWIR range 3.5-4 micrometers and the TIR range 10-13 micrometers',
'explanation' => 'MWIR and TIR channels',
'variable_id' => (int) 62,
'observingmission_id' => null,
'rating' => (int) 220,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 31 => [
'id' => (int) 7602,
'rule_id' => (int) 7160,
'instrument_id' => (int) 896,
'variable_id' => (int) 62,
'rating' => (int) 200,
'rule' => [
'id' => (int) 7160,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the MWIR range 3.5-4 micrometers and the TIR range 10-13 micrometers, flown in GEO',
'explanation' => 'MWIR and TIR channels. Frequent sampling (GEO) enables early detection',
'variable_id' => (int) 62,
'observingmission_id' => null,
'rating' => (int) 200,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 32 => [
'id' => (int) 12537,
'rule_id' => (int) 9020,
'instrument_id' => (int) 896,
'variable_id' => (int) 96,
'rating' => (int) 460,
'rule' => [
'id' => (int) 9020,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=2 channels in the TIR range 10-13 micrometers',
'explanation' => 'TIR split window channels around 11 micrometers for water vapour correction',
'variable_id' => (int) 96,
'observingmission_id' => null,
'rating' => (int) 460,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 33 => [
'id' => (int) 12538,
'rule_id' => (int) 9030,
'instrument_id' => (int) 896,
'variable_id' => (int) 96,
'rating' => (int) 420,
'rule' => [
'id' => (int) 9030,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel in the MWIR range 3.5-4 micrometers',
'explanation' => 'MWIR window channel(s) (high sensitivity to high temperature, cloud impact reduction)',
'variable_id' => (int) 96,
'observingmission_id' => null,
'rating' => (int) 420,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 34 => [
'id' => (int) 12539,
'rule_id' => (int) 9040,
'instrument_id' => (int) 896,
'variable_id' => (int) 96,
'rating' => (int) 360,
'rule' => [
'id' => (int) 9040,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel in the TIR range 10-13 micrometers and in the MWIR range 3.5-4 micrometers',
'explanation' => 'MWIR and TIR window channels (high sensitivity to high temperature, cloud impact reduction, water vapour correction)',
'variable_id' => (int) 96,
'observingmission_id' => null,
'rating' => (int) 360,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 35 => [
'id' => (int) 12540,
'rule_id' => (int) 9050,
'instrument_id' => (int) 896,
'variable_id' => (int) 96,
'rating' => (int) 340,
'rule' => [
'id' => (int) 9050,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=2 channels in the TIR range 10-13 micrometers and >=1 in the MWIR range 3.5-4 micrometers',
'explanation' => 'MWIR and TIR window channels (high sensitivity to high temperature, cloud impact reduction, water vapour correction)',
'variable_id' => (int) 96,
'observingmission_id' => null,
'rating' => (int) 340,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 36 => [
'id' => (int) 12541,
'rule_id' => (int) 11330,
'instrument_id' => (int) 896,
'variable_id' => (int) 128,
'rating' => (int) 340,
'rule' => [
'id' => (int) 11330,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=1 channels( )in the range 10-13 micrometers, flown in GEO',
'explanation' => 'TIR channel(s) in the 11 micrometers window. Frequent sampling (GEO) consistent with precipitation temporal variability',
'variable_id' => (int) 128,
'observingmission_id' => null,
'rating' => (int) 340,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 37 => [
'id' => (int) 12542,
'rule_id' => (int) 11750,
'instrument_id' => (int) 896,
'variable_id' => (int) 134,
'rating' => (int) 500,
'rule' => [
'id' => (int) 11750,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the TIR range 10-13 micrometers',
'explanation' => 'TIR window channel(s) around 11 micrometers .',
'variable_id' => (int) 134,
'observingmission_id' => null,
'rating' => (int) 500,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 38 => [
'id' => (int) 12543,
'rule_id' => (int) 11760,
'instrument_id' => (int) 896,
'variable_id' => (int) 134,
'rating' => (int) 430,
'rule' => [
'id' => (int) 11760,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=2 channels in the TIR range 10-13 micrometers',
'explanation' => 'TIR split window channels around 11 micrometers for water vapour correction',
'variable_id' => (int) 134,
'observingmission_id' => null,
'rating' => (int) 430,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 39 => [
'id' => (int) 12544,
'rule_id' => (int) 11770,
'instrument_id' => (int) 896,
'variable_id' => (int) 134,
'rating' => (int) 410,
'rule' => [
'id' => (int) 11770,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the MWIR range 3.5-4 micrometers',
'explanation' => 'MWIR window channel(s) around 3.7 micrometers (cloud impact reduction)',
'variable_id' => (int) 134,
'observingmission_id' => null,
'rating' => (int) 410,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 40 => [
'id' => (int) 12545,
'rule_id' => (int) 11790,
'instrument_id' => (int) 896,
'variable_id' => (int) 134,
'rating' => (int) 210,
'rule' => [
'id' => (int) 11790,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=2 channels in TIR range 10-13 micrometers and >=1 channel(s) in the MWIR range 3.5-4 micrometers',
'explanation' => 'MWIR and TIR window channels around 3.7 and 11 micrometers (cloud impact reduction, water vapour correction)',
'variable_id' => (int) 134,
'observingmission_id' => null,
'rating' => (int) 210,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 41 => [
'id' => (int) 17776,
'rule_id' => (int) 12890,
'instrument_id' => (int) 896,
'variable_id' => (int) 143,
'rating' => (int) 540,
'rule' => [
'id' => (int) 12890,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS',
'explanation' => 'VIS channel(s)',
'variable_id' => (int) 143,
'observingmission_id' => null,
'rating' => (int) 540,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 42 => [
'id' => (int) 17777,
'rule_id' => (int) 12920,
'instrument_id' => (int) 896,
'variable_id' => (int) 143,
'rating' => (int) 530,
'rule' => [
'id' => (int) 12920,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS, flown in GEO',
'explanation' => 'VIS channel(s). Frequent sampling (GEO) improves probability of cloud-free views',
'variable_id' => (int) 143,
'observingmission_id' => null,
'rating' => (int) 530,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 43 => [
'id' => (int) 17778,
'rule_id' => (int) 13800,
'instrument_id' => (int) 896,
'variable_id' => (int) 149,
'rating' => (int) 485,
'rule' => [
'id' => (int) 13800,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS and in the TIR range 10-13 micrometers',
'explanation' => 'VIS and TIR window channels. Soil moisture inferred from thermal inertia',
'variable_id' => (int) 149,
'observingmission_id' => null,
'rating' => (int) 485,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 44 => [
'id' => (int) 17779,
'rule_id' => (int) 13810,
'instrument_id' => (int) 896,
'variable_id' => (int) 149,
'rating' => (int) 490,
'rule' => [
'id' => (int) 13810,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS and in the MWIR range 3.5-4 micrometers',
'explanation' => 'VIS and MWIR window channels. Soil moisture inferred from thermal inertia',
'variable_id' => (int) 149,
'observingmission_id' => null,
'rating' => (int) 490,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 45 => [
'id' => (int) 17780,
'rule_id' => (int) 13820,
'instrument_id' => (int) 896,
'variable_id' => (int) 149,
'rating' => (int) 475,
'rule' => [
'id' => (int) 13820,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS and in the TIR range 10-13 micrometers, flown in GEO',
'explanation' => 'VIS and TIR window channels. Soil moisture inferred from thermal inertia, that is accurately measured by frequent sampling (GEO)',
'variable_id' => (int) 149,
'observingmission_id' => null,
'rating' => (int) 475,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 46 => [
'id' => (int) 17781,
'rule_id' => (int) 13870,
'instrument_id' => (int) 896,
'variable_id' => (int) 149,
'rating' => (int) 470,
'rule' => [
'id' => (int) 13870,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS, the MWIR range 3.5-4 micrometers, and the TIR range 10-13 micrometers, flown in GEO',
'explanation' => 'VIS, MWIR and TIR channels. Soil moisture inferred from thermal inertia, that is accurately measured by frequent sampling (GEO)',
'variable_id' => (int) 149,
'observingmission_id' => null,
'rating' => (int) 470,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 47 => [
'id' => (int) 17782,
'rule_id' => (int) 14600,
'instrument_id' => (int) 896,
'variable_id' => (int) 162,
'rating' => (int) 430,
'rule' => [
'id' => (int) 14600,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=1 channel(s) in the 6-8 micrometers range',
'explanation' => 'TIR channels in the water vapour band around 6.3 micrometers',
'variable_id' => (int) 162,
'observingmission_id' => null,
'rating' => (int) 430,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 48 => [
'id' => (int) 17783,
'rule_id' => (int) 14610,
'instrument_id' => (int) 896,
'variable_id' => (int) 162,
'rating' => (int) 460,
'rule' => [
'id' => (int) 14610,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=2 channels in the 10-13 micrometers range',
'explanation' => 'TIR channels in the 11 micrometers split window',
'variable_id' => (int) 162,
'observingmission_id' => null,
'rating' => (int) 460,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 49 => [
'id' => (int) 17784,
'rule_id' => (int) 14640,
'instrument_id' => (int) 896,
'variable_id' => (int) 162,
'rating' => (int) 270,
'rule' => [
'id' => (int) 14640,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=1 channel(s) in the 6-8 micrometers range, and >=2 channels in the 10-13 micrometers range',
'explanation' => 'TIR channels around 6.3 micrometers and in the 11 micrometers split window',
'variable_id' => (int) 162,
'observingmission_id' => null,
'rating' => (int) 270,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 50 => [
'id' => (int) 17785,
'rule_id' => (int) 15330,
'instrument_id' => (int) 896,
'variable_id' => (int) 169,
'rating' => (int) 510,
'rule' => [
'id' => (int) 15330,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in windows (3.5-4 and 10-13 micrometers) and water vapour band (6-8 micrometers)',
'explanation' => 'MWIR and TIR channels in windows around 3.7 and 11 micrometers, and in the water vapour band around 6.3 micrometers',
'variable_id' => (int) 169,
'observingmission_id' => null,
'rating' => (int) 510,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 51 => [
'id' => (int) 17786,
'rule_id' => (int) 15470,
'instrument_id' => (int) 896,
'variable_id' => (int) 170,
'rating' => (int) 440,
'rule' => [
'id' => (int) 15470,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in windows (3.5-4 and 10-13 micrometers) and water vapour band (6-8 micrometers)',
'explanation' => 'MWIR and TIR channels in windows around 3.7 and 11 micrometers, and in the water vapour band around 6.3 micrometers',
'variable_id' => (int) 170,
'observingmission_id' => null,
'rating' => (int) 440,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 52 => [
'id' => (int) 17787,
'rule_id' => (int) 16087,
'instrument_id' => (int) 896,
'variable_id' => (int) 174,
'rating' => (int) 180,
'rule' => [
'id' => (int) 16087,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in TIR, in GEO',
'explanation' => 'TIR channel(s). Frequent sampling (GEO) enables early detection of ash plumes',
'variable_id' => (int) 174,
'observingmission_id' => null,
'rating' => (int) 180,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 53 => [
'id' => (int) 19965,
'rule_id' => (int) 16570,
'instrument_id' => (int) 896,
'variable_id' => (int) 179,
'rating' => (int) 500,
'rule' => [
'id' => (int) 16570,
'ruletype_id' => (int) 1,
'description' => 'Geostationary imager with >=1 VIS channel(s)',
'explanation' => 'VIS channel(s). Frequent sampling (GEO) enables inference from cloud motion',
'variable_id' => (int) 179,
'observingmission_id' => null,
'rating' => (int) 500,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 54 => [
'id' => (int) 19966,
'rule_id' => (int) 16590,
'instrument_id' => (int) 896,
'variable_id' => (int) 179,
'rating' => (int) 410,
'rule' => [
'id' => (int) 16590,
'ruletype_id' => (int) 1,
'description' => 'Geostationary imager with >=1 channel(s) in both VIS and the TIR 10-13 micrometers range',
'explanation' => 'VIS channel(s) and TIR channel(s) around 11 micrometers window. Frequent sampling (GEO) enables inference from cloud motion',
'variable_id' => (int) 179,
'observingmission_id' => null,
'rating' => (int) 410,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 55 => [
'id' => (int) 19967,
'rule_id' => (int) 16620,
'instrument_id' => (int) 896,
'variable_id' => (int) 179,
'rating' => (int) 300,
'rule' => [
'id' => (int) 16620,
'ruletype_id' => (int) 1,
'description' => 'Geostationary imager with >=1 channel(s) in VIS and in the TIR ranges 10-13 and 6-8 micrometers',
'explanation' => 'VIS channel(s) and TIR channels around 6.3 and 11 micrometers. Frequent sampling (GEO) enables inference from cloud or water vapour pathces motion',
'variable_id' => (int) 179,
'observingmission_id' => null,
'rating' => (int) 300,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 56 => [
'id' => (int) 22763,
'rule_id' => (int) 80060,
'instrument_id' => (int) 896,
'variable_id' => (int) 0,
'rating' => (int) 510,
'rule' => [
'id' => (int) 80060,
'ruletype_id' => (int) 3,
'description' => 'VIS/IR radiometer with >=1 channel(s) in VIS and the TIR range 10-13 micrometers, flown in GEO',
'explanation' => 'Bare minimum configuration, mostly addressing clouds. Cloud-motion wind',
'variable_id' => null,
'observingmission_id' => (int) 2,
'rating' => (int) 510,
'limitations' => [[maximum depth reached]],
'observingmission' => [
[maximum depth reached]
],
'variable' => null,
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 57 => [
'id' => (int) 22764,
'rule_id' => (int) 80070,
'instrument_id' => (int) 896,
'variable_id' => (int) 0,
'rating' => (int) 500,
'rule' => [
'id' => (int) 80070,
'ruletype_id' => (int) 3,
'description' => 'VIS/IR radiometer with >=1 channel(s) in VIS and the TIR ranges 6-8 and 10-13 micrometers, flown in GEO',
'explanation' => 'Capturing mid-upper atmospheric water vapour. Cloud-motion wind',
'variable_id' => null,
'observingmission_id' => (int) 2,
'rating' => (int) 500,
'limitations' => [[maximum depth reached]],
'observingmission' => [
[maximum depth reached]
],
'variable' => null,
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 58 => [
'id' => (int) 22765,
'rule_id' => (int) 80080,
'instrument_id' => (int) 896,
'variable_id' => (int) 0,
'rating' => (int) 400,
'rule' => [
'id' => (int) 80080,
'ruletype_id' => (int) 3,
'description' => 'VIS/IR radiometer with >=1 channel(s) in VIS, the MWIR range 3.5-4 micrometers and the TIR range 6-8 micrometers; and >=2 channels in the TIR range 10-13 micrometers. Flown in GEO',
'explanation' => 'Addressing surface temperature in addition to clouds and water vapour. Cloud-motion wind',
'variable_id' => null,
'observingmission_id' => (int) 2,
'rating' => (int) 400,
'limitations' => [[maximum depth reached]],
'observingmission' => [
[maximum depth reached]
],
'variable' => null,
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 59 => [
'id' => (int) 27008,
'rule_id' => (int) 85210,
'instrument_id' => (int) 896,
'variable_id' => (int) 0,
'rating' => (int) 110,
'rule' => [
'id' => (int) 85210,
'ruletype_id' => (int) 3,
'description' => 'Multi-purpose radiometer for cloud analysis flown in GEO or Molniya',
'explanation' => 'Multi-purpose radiometer for cloud analysis flown in GEO or Molniya',
'variable_id' => null,
'observingmission_id' => (int) 36,
'rating' => (int) 110,
'limitations' => [[maximum depth reached]],
'observingmission' => [
[maximum depth reached]
],
'variable' => null,
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 60 => [
'id' => (int) 27009,
'rule_id' => (int) 85250,
'instrument_id' => (int) 896,
'variable_id' => (int) 0,
'rating' => (int) 310,
'rule' => [
'id' => (int) 85250,
'ruletype_id' => (int) 3,
'description' => 'Multipurpose imager essentially for cloud analysis flown in GEO or Molniya',
'explanation' => 'Multipurpose imager essentially for cloud analysis flown in GEO or Molniya',
'variable_id' => null,
'observingmission_id' => (int) 36,
'rating' => (int) 310,
'limitations' => [[maximum depth reached]],
'observingmission' => [
[maximum depth reached]
],
'variable' => null,
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 61 => [
'id' => (int) 27010,
'rule_id' => (int) 85540,
'instrument_id' => (int) 896,
'variable_id' => (int) 0,
'rating' => (int) 310,
'rule' => [
'id' => (int) 85540,
'ruletype_id' => (int) 3,
'description' => 'Modereate-resolution imaging radiometer in GEO or Molniya for frequent measurement of surface temperature and clouds',
'explanation' => 'Moderate-resolution imaging radiometer in GEO or Molniya for frequent measurement of surface temperature and clouds',
'variable_id' => null,
'observingmission_id' => (int) 39,
'rating' => (int) 310,
'limitations' => [[maximum depth reached]],
'observingmission' => [
[maximum depth reached]
],
'variable' => null,
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 62 => [
'id' => (int) 27011,
'rule_id' => (int) 85730,
'instrument_id' => (int) 896,
'variable_id' => (int) 0,
'rating' => (int) 350,
'rule' => [
'id' => (int) 85730,
'ruletype_id' => (int) 3,
'description' => 'Moderate-resolution imaging radiometer in GEO or Molniya for frequent surface temperatures, cloud analysis, cloud motion wind and convective precipitation',
'explanation' => 'Moderate-resolution imaging radiometer in GEO or Molniya for frequent surface temperatures, cloud analysis, cloud motion wind and convective precipitation',
'variable_id' => null,
'observingmission_id' => (int) 41,
'rating' => (int) 350,
'limitations' => [[maximum depth reached]],
'observingmission' => [
[maximum depth reached]
],
'variable' => null,
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 63 => [
'id' => (int) 27012,
'rule_id' => (int) 100002,
'instrument_id' => (int) 896,
'variable_id' => (int) 0,
'rating' => (int) 1,
'rule' => [
'id' => (int) 100002,
'ruletype_id' => (int) 2,
'description' => 'VIS',
'explanation' => null,
'variable_id' => null,
'observingmission_id' => null,
'rating' => (int) 1,
'limitations' => [[maximum depth reached]],
'observingmission' => null,
'variable' => null,
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 64 => [
'id' => (int) 27013,
'rule_id' => (int) 100005,
'instrument_id' => (int) 896,
'variable_id' => (int) 0,
'rating' => (int) 1,
'rule' => [
'id' => (int) 100005,
'ruletype_id' => (int) 2,
'description' => 'MWIR',
'explanation' => null,
'variable_id' => null,
'observingmission_id' => null,
'rating' => (int) 1,
'limitations' => [[maximum depth reached]],
'observingmission' => null,
'variable' => null,
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 65 => [
'id' => (int) 27014,
'rule_id' => (int) 100006,
'instrument_id' => (int) 896,
'variable_id' => (int) 0,
'rating' => (int) 1,
'rule' => [
'id' => (int) 100006,
'ruletype_id' => (int) 2,
'description' => 'TIR',
'explanation' => null,
'variable_id' => null,
'observingmission_id' => null,
'rating' => (int) 1,
'limitations' => [[maximum depth reached]],
'observingmission' => null,
'variable' => null,
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 66 => [
'id' => (int) 27015,
'rule_id' => (int) 100020,
'instrument_id' => (int) 896,
'variable_id' => (int) 0,
'rating' => (int) 1,
'rule' => [
'id' => (int) 100020,
'ruletype_id' => (int) 2,
'description' => 'GEO',
'explanation' => null,
'variable_id' => null,
'observingmission_id' => null,
'rating' => (int) 1,
'limitations' => [[maximum depth reached]],
'observingmission' => null,
'variable' => null,
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 67 => [
'id' => (int) 27016,
'rule_id' => (int) 100039,
'instrument_id' => (int) 896,
'variable_id' => (int) 0,
'rating' => (int) 1,
'rule' => [
'id' => (int) 100039,
'ruletype_id' => (int) 2,
'description' => 'GEO & GeoSync',
'explanation' => null,
'variable_id' => null,
'observingmission_id' => null,
'rating' => (int) 1,
'limitations' => [[maximum depth reached]],
'observingmission' => null,
'variable' => null,
'ruletype' => [
[maximum depth reached]
]
]
],
(int) 68 => [
'id' => (int) 53888,
'rule_id' => (int) 10,
'instrument_id' => (int) 896,
'variable_id' => (int) 1,
'rating' => (int) 4000,
'rule' => [
'id' => (int) 10,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=1 channel(s) in the range 10-13 micrometers, flown in GEO. ',
'explanation' => 'TIR channel(s) in the 10-13 micrometers range. Frequent sampling (GEO) is essential for accumulated precipitation.',
'variable_id' => (int) 1,
'observingmission_id' => null,
'rating' => (int) 4000,
'limitations' => [
[maximum depth reached]
],
'observingmission' => null,
'variable' => [
[maximum depth reached]
],
'ruletype' => [
[maximum depth reached]
]
]
]
]
$show_rule_type = (int) 1
$relevances = [
(int) 1 => 'primary',
(int) 2 => 'very high',
(int) 3 => 'high',
(int) 4 => 'fair',
(int) 5 => 'marginal'
]
$view = object(App\View\AppView) {
Form => object(Cake\View\Helper\FormHelper) {}
HTMLPurifier => object(App\View\Helper\HTMLPurifierHelper) {}
AuthUser => object(App\View\Helper\AuthUserHelper) {}
PhpExcel => object(App\View\Helper\PhpExcelHelper) {}
Html => object(Cake\View\Helper\HtmlHelper) {}
Url => object(Cake\View\Helper\UrlHelper) {}
DateFormat => object(App\View\Helper\DateFormatHelper) {}
[protected] _helpers => object(Cake\View\HelperRegistry) {}
[protected] Blocks => object(Cake\View\ViewBlock) {}
[protected] plugin => null
[protected] name => 'Instruments'
[protected] helpers => []
[protected] templatePath => 'Instruments'
[protected] template => 'view'
[protected] layout => 'default'
[protected] layoutPath => ''
[protected] autoLayout => true
[protected] viewVars => [
'description_for_layout' => 'Stretched Visible and Infrared Spin Scan Radiometer | Purpose: Multi-purpose imagery and wind derivation by tracking clouds and water vapour features',
'title_for_layout' => 'Details for Instrument S-VISSR (FY-2F/G/H)',
'selectedFilters' => [[maximum depth reached]],
'instrumentfilters' => [[maximum depth reached]],
'neighbors' => [
[maximum depth reached]
],
'instrument' => [
[maximum depth reached]
],
'relatedprogs' => [
[maximum depth reached]
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'rules' => [
[maximum depth reached]
],
'relevances' => [
[maximum depth reached]
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'parents' => [
[maximum depth reached]
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'ruleTypes' => [
[maximum depth reached]
],
'propertytypes' => object(App\Model\Table\PropertytypesTable) {}
]
[protected] _ext => '.php'
[protected] subDir => ''
[protected] theme => null
[protected] request => object(Cake\Http\ServerRequest) {}
[protected] response => object(Cake\Http\Response) {}
[protected] elementCache => 'default'
[protected] _passedVars => [
(int) 0 => 'viewVars',
(int) 1 => 'autoLayout',
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(int) 6 => 'theme',
(int) 7 => 'layoutPath',
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[protected] _defaultConfig => []
[protected] _paths => [
(int) 0 => '/var/www/webroot/oscar-uat/templates/',
(int) 1 => '/var/www/webroot/oscar-uat/vendor/cakephp/cakephp/templates/'
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[protected] _pathsForPlugin => []
[protected] _parents => []
[protected] _current => '/var/www/webroot/oscar-uat/templates/Instruments/view.php'
[protected] _currentType => 'template'
[protected] _stack => []
[protected] _viewBlockClass => 'Cake\View\ViewBlock'
[protected] _eventManager => object(Cake\Event\EventManager) {}
[protected] _eventClass => 'Cake\Event\Event'
[protected] _config => []
[protected] _configInitialized => true
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$only_best = true
$mode = ''
$can_edit = false
$html = '<div class='block' style='margin-bottom:40px;'>
<table id='rules-ruletype-1-best'>
<thead><tr><th>Variable</th><th>Relevance for measuring this variable</th><th>Operational limitations</th><th>Explanation</th></tr></thead>
<tbody>
<tr><td><a href='/oscar-uat/gapanalyses?variable=27'>Cloud cover</a></td><td class='color-3'>3 - high</td><td>No specific limitation.</td><td>VIS, MWIR and TIR channels</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=35'>Cloud top height</a></td><td class='color-3'>3 - high</td><td>No specific limitation.</td><td>TIR channels in window and water vapour band (for emissivity) to estimate cloud top height from its temperature</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=36'>Cloud top temperature</a></td><td class='color-2'>2 - very high</td><td>No specific limitation.</td><td>TIR channels in window and water vapour band (for emissivity)</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=37'>Cloud type</a></td><td class='color-3'>3 - high</td><td>No specific limitation.</td><td>VIS, MWIR and TIR channels</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=52'>Downward long-wave irradiance at Earth surface</a></td><td class='color-4'>4 - fair</td><td>Cloud sensitive.. Highly indirect.</td><td>MWIR and TIR channels including the water vapour band</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=60'>Fire fractional cover</a></td><td class='color-4'>4 - fair</td><td>Cloud sensitive.. Coarse spatial resolution.</td><td>VIS, MWIR and TIR channels. Frequent sampling (GEO) enables early detection</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=61'>Fire radiative power</a></td><td class='color-2'>2 - very high</td><td>Cloud sensitive.. Coarse spatial resolution.</td><td>MWIR and TIR channels. Frequent sampling (GEO) enables early detection</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=62'>Fire temperature</a></td><td class='color-2'>2 - very high</td><td>Cloud sensitive.. Coarse spatial resolution.</td><td>MWIR and TIR channels. Frequent sampling (GEO) enables early detection</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=96'>Land surface temperature</a></td><td class='color-3'>3 - high</td><td>Cloud sensitive.</td><td>MWIR and TIR window channels (high sensitivity to high temperature, cloud impact reduction, water vapour correction)</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=128'>Precipitation intensity at surface (liquid or solid)</a></td><td class='color-3'>3 - high</td><td>Convective precipitation dominant.. Calibration by MW needed.</td><td>TIR channel(s) in the 11 micrometers window. Frequent sampling (GEO) consistent with precipitation temporal variability</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=134'>Sea surface temperature</a></td><td class='color-2'>2 - very high</td><td>Cloud sensitive.</td><td>MWIR and TIR window channels around 3.7 and 11 micrometers (cloud impact reduction, water vapour correction)</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=143'>Snow cover</a></td><td class='color-5'>5 - marginal</td><td>Cloud sensitive.. Daylight only.</td><td>VIS channel(s). Frequent sampling (GEO) improves probability of cloud-free views</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=149'>Soil moisture at surface</a></td><td class='color-4'>4 - fair</td><td>Cloud sensitive.. Index only.</td><td>VIS, MWIR and TIR channels. Soil moisture inferred from thermal inertia, that is accurately measured by frequent sampling (GEO)</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=162'>Integrated Water Vapour (IWV)</a></td><td class='color-2'>2 - very high</td><td>Cloud sensitive.</td><td>TIR channels around 6.3 micrometers and in the 11 micrometers split window</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=169'>Upward long-wave irradiance at TOA</a></td><td class='color-5'>5 - marginal</td><td>Spectral interpolation needed.</td><td>MWIR and TIR channels in windows around 3.7 and 11 micrometers, and in the water vapour band around 6.3 micrometers</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=170'>Upward long-wave irradiance at Earth surface</a></td><td class='color-4'>4 - fair</td><td>Cloud sensitive.. Highly indirect.</td><td>MWIR and TIR channels in windows around 3.7 and 11 micrometers, and in the water vapour band around 6.3 micrometers</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=174'>Aerosol volcanic ash Total Column</a></td><td class='color-1'>1 - primary</td><td>Cloud sensitive.</td><td>TIR channel(s). Frequent sampling (GEO) enables early detection of ash plumes</td>
</tr>
<tr><td><a href='/oscar-uat/gapanalyses?variable=179'>Wind (horizontal)</a></td><td class='color-3'>3 - high</td><td>Cloud or water vapour tracers needed.</td><td>VIS channel(s) and TIR channels around 6.3 and 11 micrometers. Frequent sampling (GEO) enables inference from cloud or water vapour pathces motion</td>
</tr>
<tr>'
$headings = [
(int) 1 => 'Instrument rules',
(int) 3 => 'Mission rules',
(int) 2 => 'Filter rules'
]
$is_public = [
(int) 1 => true,
(int) 3 => false,
(int) 2 => false
]
$heading = 'Instrument rules'
$type = (int) 1
$selection = [
(int) 4 => [
'id' => (int) 3220,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS, MWIR and TIR',
'explanation' => 'VIS, MWIR and TIR channels',
'variable_id' => (int) 27,
'observingmission_id' => null,
'rating' => (int) 300,
'limitations' => [
(int) 0 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 27,
'name' => 'Cloud cover',
'definition' => '3D field of fraction of sky filled by clouds. ',
'measuring_units' => '%',
'uncertainty_units' => '%',
'stability_units' => '%',
'hr_units' => 'km',
'vr_units' => '',
'comment' => 'The total cloud cover cannot be simply derived from the 3D cloud cover because of unknown overlapping of cloud layers over any given area.',
'subdomain_id' => (int) 2,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements such as the uncertainty, the vertical resolution, and the frequency and spatial resolution of the retrieved measurement in comparison with the space-time variability of the geophysical parameter. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the spectral bands exploited to detect the various types of cloud;</li>
<li>the night and day observing capability.</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in 5 bands: VIS + NIR + SWIR + MWIR + TIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in 4 bands: VIS + MWIR + TIR + (NIR or SWIR)</li>
<li>Radiometer with channels in 4 bands: VIS + NIR + SWIR + TIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in 3 bands: VIS + TIR + (SWIR or MWIR); or SWIR + MWIR + TIR</li>
<li>Spectrometer covering 3 bands: NIR + SWIR + TIR; or 2 bands: MWIR + TIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in 2 bands: TIR + (VIS or MWIR)</li>
<li>Hyperspectral radiometer or spectrometer covering 3 bands: NIR + SWIR + (VIS or MWIR)</li>
<li>Hyperspectral radiometer or spectrometer covering 2 bands: NIR + SWIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>TIR or MWIR radiometer or spectrometer</li>
<li>Radiometer or spectrometer with channels in VIS or (VIS + NIR) or (VIS + NIR + SWIR)</li>
<li>Panchromatic imager</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'cloud_cover'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 6 => [
'id' => (int) 5070,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=1 channel(s) in each of the ranges 6-8 and 10-13 micrometers',
'explanation' => 'TIR channels in window and water vapour band (for emissivity) to estimate cloud top height from its temperature',
'variable_id' => (int) 35,
'observingmission_id' => null,
'rating' => (int) 320,
'limitations' => [
(int) 0 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 35,
'name' => 'Cloud top height',
'definition' => '<p>Height of the top of the cloud (highest cloud in case of multi-layer clouds) </p>',
'measuring_units' => '<p>km</p>',
'uncertainty_units' => '<p>km</p>',
'stability_units' => '<p>km</p>',
'hr_units' => 'km',
'vr_units' => '',
'comment' => '',
'subdomain_id' => (int) 2,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements such as the uncertainty, and the frequency and spatial resolution of the retrieved measurement in comparison with the space-time variability of the geophysical parameter. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the exploited measurement technique (lidar, radar, spectrometry, radiometry)</li>
<li>for spectro-radiometry: the exploited bands (6-8, 10-13, 13-15 mm; 700-800 nm).</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>Backscatter lidar</li>
<li>Lidar altimeter</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>Spectrometer covering the range 5-15 mm</li>
<li>Radiometer with channels in the ranges 6-8, 10-13 and 13-15 mm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in the ranges 6-8 and 10-13 mm</li>
<li>Radiometer with channels in the ranges 10-13 and 13-15 mm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in the split window 10-13 mm</li>
<li>Spectrometer or hyperspectral radiometer covering the 700-800 nm band</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with some channel in the 700-800 nm band</li>
<li>W-band cloud radar</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'cloud_top_height'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 10 => [
'id' => (int) 5290,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=2 channels in the range 10-13 micrometers and >=1 channel(s) in the range 6-8 micrometers',
'explanation' => 'TIR channels in window and water vapour band (for emissivity)',
'variable_id' => (int) 36,
'observingmission_id' => null,
'rating' => (int) 210,
'limitations' => [
(int) 0 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 36,
'name' => 'Cloud top temperature',
'definition' => '<p>Temperature of the top of the cloud (highest cloud in case of multi-layer clouds) </p>',
'measuring_units' => '<p>K</p>',
'uncertainty_units' => '<p>K</p>',
'stability_units' => '<p>K</p>',
'hr_units' => 'km',
'vr_units' => '',
'comment' => '',
'subdomain_id' => (int) 2,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements such as the uncertainty, and the frequency and spatial resolution of the retrieved measurement in comparison with the space-time variability of the geophysical parameter. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the spectral bands exploited (TIR window and possibly water vapour).</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>Spectrometer in the ranges 6-8 and 10-13 mm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in the split window 10-13 mm and in the range 6-8 mm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in the ranges 6-8 and 10-13 mm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in the split window 10-13 mm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with a single channel in the 10-13 mm range</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'cloud_top_temperature'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 13 => [
'id' => (int) 5420,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS, MWIR and TIR',
'explanation' => 'VIS, MWIR and TIR channels',
'variable_id' => (int) 37,
'observingmission_id' => null,
'rating' => (int) 310,
'limitations' => [
(int) 0 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 37,
'name' => 'Cloud type',
'definition' => '<p>Result of cloud type classification - Accuracy expressed as inverse of number of classes, so that smaller figures correspond to better performance.</p>',
'measuring_units' => '<p>Classes</p>',
'uncertainty_units' => '<p>Classes <sup>-1</sup> </p>',
'stability_units' => '<p>Classes <sup>-1</sup></p>',
'hr_units' => 'km',
'vr_units' => '',
'comment' => '',
'subdomain_id' => (int) 2,
'modified' => null,
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements such as the uncertainty, and the frequency and spatial resolution of the retrieved measurement in comparison with the space-time variability of the geophysical parameter. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the spectral bands exploited to detect the various types of cloud;</li>
<li>the night and day observing capability..</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in VIS, NIR, SWIR, MWIR and TIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in VIS, MWIR, TIR and (NIR or SWIR)</li>
<li>Radiometer with channels in VIS, NIR, SWIR and TIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in VIS, MWIR and TIR</li>
<li>Radiometer with channels in NIR, SWIR and (MWIR or TIR)</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in VIS and TIR</li>
<li>Spectrometer or radiometer in MWIR and TIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channel in VIS, NIR and SWIR</li>
<li>Radiometer with channel in VIS and NIR</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'cloud_type'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 14 => [
'id' => (int) 6480,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in windows (3.5-4 and 10-13 micrometers) and water vapour band (6-8 micrometers)',
'explanation' => 'MWIR and TIR channels including the water vapour band',
'variable_id' => (int) 52,
'observingmission_id' => null,
'rating' => (int) 440,
'limitations' => [
(int) 0 => [
[maximum depth reached]
],
(int) 1 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 52,
'name' => 'Downward long-wave irradiance at Earth surface',
'definition' => '<p>Flux density of radiation emitted by the gases, aerosols and clouds of the atmosphere to the Earth's surface</p>',
'measuring_units' => 'W.m<sup>-2 </sup>',
'uncertainty_units' => 'W.m<sup>-2</sup>',
'stability_units' => 'W.m<sup>-2</sup>',
'hr_units' => 'km',
'vr_units' => '',
'comment' => '',
'subdomain_id' => (int) 3,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the performance for temperature and humidity sounding;</li>
<li>the covered spectral range.</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>Spectrometer covering the range 3.5-15 mm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>Spectrometer covering the range 5-15 mm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in the MWIR and TIR windows, the H2O 6-8 mm band, and the CO2 4.3 and 15 mm bands</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in the MWIR and TIR windows, the H2O 6-8 mm band, and the CO2 4.3 or 15 mm bands</li>
<li>Radiometer with channels in the MWIR and TIR windows, and the H2O 6-8 mm band</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer with sounding channels for temperature and humidity</li>
<li>MW radiometer with sounding channels for humidity</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'downward_long_wave_irradiance_at_earth_surface'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 21 => [
'id' => (int) 6870,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS, in the MWIR range 3.5-4 micrometers and the TIR range 10-13 micrometers, flown in GEO',
'explanation' => 'VIS, MWIR and TIR channels. Frequent sampling (GEO) enables early detection',
'variable_id' => (int) 60,
'observingmission_id' => null,
'rating' => (int) 400,
'limitations' => [
(int) 0 => [
[maximum depth reached]
],
(int) 1 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 60,
'name' => 'Fire fractional cover',
'definition' => 'Fraction of a land area where fire is occurring',
'measuring_units' => '%',
'uncertainty_units' => '%',
'stability_units' => '%',
'hr_units' => 'km',
'vr_units' => '',
'comment' => '',
'subdomain_id' => (int) 5,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the spatial resolution;</li>
<li>the observing technique (optical, SAR).</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>High-spatial-resolution VIS/TIR radiometer</li>
<li>High-spatial-resolution MWIR/TIR radiometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>High-spatial-resolution VIR or MWIR or TIR or panchromatic radiometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>Ku- and X-band, or X- or C-band SAR</li>
<li>S- and L-band, or S- or L-band SAR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>VIS + MWIR + TIR radiometer</li>
<li>VIS and (MWIR or TIR) radiometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>VIS or MWIR or TIR radiometer</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'fire_fractional_cover'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 26 => [
'id' => (int) 7060,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the MWIR range 3.5-4 micrometers and the TIR range 10-13 micrometers, flown in GEO',
'explanation' => 'MWIR and TIR channels. Frequent sampling (GEO) enables early detection',
'variable_id' => (int) 61,
'observingmission_id' => null,
'rating' => (int) 200,
'limitations' => [
(int) 0 => [
[maximum depth reached]
],
(int) 1 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 61,
'name' => 'Fire radiative power',
'definition' => '<p>Power radiated by the fire occurring within an area</p>',
'measuring_units' => '<p>kW*m<sup>-2 </sup></p>',
'uncertainty_units' => '<p>kW*m<sup>-2 </sup></p>',
'stability_units' => '<p>kW*m<sup>-2 </sup></p>',
'hr_units' => 'km',
'vr_units' => '',
'comment' => '',
'subdomain_id' => (int) 5,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the spatial resolution</li>
<li>the exploited spectral range.</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>High-spatial-resolution MWIR/TIR radiometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>MWIR/TIR radiometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>High-spatial-resolution MWIR radiometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>MWIR radiometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>TIR radiometer</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'fire_radiative_power'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 31 => [
'id' => (int) 7160,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in the MWIR range 3.5-4 micrometers and the TIR range 10-13 micrometers, flown in GEO',
'explanation' => 'MWIR and TIR channels. Frequent sampling (GEO) enables early detection',
'variable_id' => (int) 62,
'observingmission_id' => null,
'rating' => (int) 200,
'limitations' => [
(int) 0 => [
[maximum depth reached]
],
(int) 1 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 62,
'name' => 'Fire temperature',
'definition' => 'Temperature of the fire occurring within an area ',
'measuring_units' => 'K',
'uncertainty_units' => 'K',
'stability_units' => 'K',
'hr_units' => 'km',
'vr_units' => '',
'comment' => '',
'subdomain_id' => (int) 5,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the spatial resolution</li>
<li>the exploited spectral range.</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>High-spatial-resolution MWIR/TIR radiometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>MWIR/TIR radiometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>High-spatial-resolution MWIR radiometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>MWIR radiometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>TIR radiometer</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'fire_temperature'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 35 => [
'id' => (int) 9050,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=2 channels in the TIR range 10-13 micrometers and >=1 in the MWIR range 3.5-4 micrometers',
'explanation' => 'MWIR and TIR window channels (high sensitivity to high temperature, cloud impact reduction, water vapour correction)',
'variable_id' => (int) 96,
'observingmission_id' => null,
'rating' => (int) 340,
'limitations' => [
(int) 0 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 96,
'name' => 'Land surface temperature',
'definition' => 'Temperature of the apparent surface of land (bare soil or vegetation) - Physical unit: [ K ] - Accuracy unit: [ K ].',
'measuring_units' => 'K',
'uncertainty_units' => 'K',
'stability_units' => 'K',
'hr_units' => 'km',
'vr_units' => '',
'comment' => '',
'subdomain_id' => (int) 5,
'modified' => null,
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the sensing technique (optical or MW);</li>
<li>the exploited spectral bands and spectral resolution.</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>MWIR and TIR radiometer with multi-viewing capability</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>Spectrometer covering MWIR and TIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in MWIR and TIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>Spectrometer or radiometer in MWIR</li>
<li>Spectrometer or radiometer in TIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer with channels around 7 and 10 GHz</li>
<li>MW radiometer with channels around 7 or 10 GHz</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'land_surface_temperature'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 36 => [
'id' => (int) 11330,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=1 channels( )in the range 10-13 micrometers, flown in GEO',
'explanation' => 'TIR channel(s) in the 11 micrometers window. Frequent sampling (GEO) consistent with precipitation temporal variability',
'variable_id' => (int) 128,
'observingmission_id' => null,
'rating' => (int) 340,
'limitations' => [
(int) 0 => [
[maximum depth reached]
],
(int) 1 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 128,
'name' => 'Precipitation intensity at surface (liquid or solid)',
'definition' => '<p>Intensity of precipitation reaching the ground - Physical unit: [ mm/h ] (if solid, mm/h of liquid water after melting) - Accuracy unit: [ mm/h ]. Since accuracy changes with intensity, it is necessary to specify a reference intensity. Assumed rate: 5 mm/h.</p>',
'measuring_units' => 'mm/h',
'uncertainty_units' => 'mm/h',
'stability_units' => 'mm/h',
'hr_units' => 'km',
'vr_units' => 'N/A',
'comment' => 'This variable merges "Precipitation rate (liquid) at the surface" and "Precipitation rate (solid) at the surface". ',
'subdomain_id' => (int) 2,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements such as the uncertainty, the vertical resolution, and the frequency and spatial resolution of the retrieved measurement in comparison with the space-time variability of the geophysical parameter. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the capability to observe atmospheric water by passive (MW) or active (radar) techniques;</li>
<li>the exploited MW bands (windows or sounding).</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>Precipitation radar in Ku- and Ka- band</li>
<li>MW radiometer with both 54 and 183 GHz, in GEO</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>Ku-band precipitation radar</li>
<li>High-resolution MW radiometer with both window channels including 90 GHz, and sounding channels, in LEO</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer with both window channels including 90 GHz, and 54 and/or 183 GHz channels, in LEO</li>
<li>TIR radiometer, in GEO</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer with only window channels, including 90 GHz, in LEO</li>
<li>High-resolution MW radiometer with only window channels, missing 90 GHz, in LEO</li>
<li>MW sounder in the bands 183 and (54 or 118) GHz, in LEO</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer with only window channels missing 90 GHz, in LEO</li>
<li>MW sounder with either 54 or 183 GHz, in LEO</li>
<li>W-band cloud radar</li>
<li>Radio occultation sounder splitting polarisation</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'precipitation_intensity_at_surface_liquid_or_solid'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 40 => [
'id' => (int) 11790,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=2 channels in TIR range 10-13 micrometers and >=1 channel(s) in the MWIR range 3.5-4 micrometers',
'explanation' => 'MWIR and TIR window channels around 3.7 and 11 micrometers (cloud impact reduction, water vapour correction)',
'variable_id' => (int) 134,
'observingmission_id' => null,
'rating' => (int) 210,
'limitations' => [
(int) 0 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 134,
'name' => 'Sea surface temperature',
'definition' => 'Temperature of the sea water at surface. The “bulk” temperature refers to the depth of typically 2 m, the “skin” temperature refers to within the upper 1 mm. ',
'measuring_units' => 'K',
'uncertainty_units' => 'K',
'stability_units' => 'K',
'hr_units' => 'km',
'vr_units' => '',
'comment' => 'Detailed SST definitions are available from GHRSST: https://www.ghrsst.org/ghrsst-science/sst-definitions/',
'subdomain_id' => (int) 4,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements such as the uncertainty, the vertical resolution, and the frequency and spatial resolution of the retrieved measurement in comparison with the space-time variability of the geophysical parameter. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the spectral band (optical or MW);</li>
<li>the multi-viewing (optical) and multi-polarisation (MW) capability:</li>
<li>the synergy between MWIR and TIR.</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>MWIR + TIR radiometer with multi-viewing capability</li>
<li>MWIR + TIR spectrometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>MWIR + TIR radiometer in GEO or Molniya</li>
<li>MWIR + split window TIR radiometer in LEO</li>
<li>MWIR spectrometer</li>
<li>MW polarimetric radiometer around 7 and 10 GHz</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>MWIR + TIR radiometer</li>
<li>TIR spectrometer</li>
<li>MW polarimetric radiometer around 7 GHz</li>
<li>MW radiometer around 7 and 10 GHz</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>MWIR radiometer</li>
<li>TIR split window radiometer</li>
<li>MW radiometer around 7 GHz</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>TIR radiometer</li>
<li>MW radiometer around 10 GHz</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'sea_surface_temperature'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 42 => [
'id' => (int) 12920,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS, flown in GEO',
'explanation' => 'VIS channel(s). Frequent sampling (GEO) improves probability of cloud-free views',
'variable_id' => (int) 143,
'observingmission_id' => null,
'rating' => (int) 530,
'limitations' => [
(int) 0 => [
[maximum depth reached]
],
(int) 1 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 143,
'name' => 'Snow cover',
'definition' => '<p>Fraction of a given area which is covered by snow </p>',
'measuring_units' => '<p>%</p>',
'uncertainty_units' => '<p>%</p>',
'stability_units' => '<p>%</p>',
'hr_units' => 'km',
'vr_units' => '',
'comment' => '',
'subdomain_id' => (int) 5,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the spatial resolution</li>
<li>the exploited technology (active or passive)</li>
<li>the exploited spectral range.</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>High-spatial-resolution radiometer with channels in VIS, NIR and SWIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in VIS, NIR and SWIR</li>
<li>Radiometer with channels in VIS and SWIR</li>
<li>High-spatial-resolution MW radiometer with frequencies ~19, ~37 and possibly ~90 GHz</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radar scatterometer in Ku- and C-band, or Ku- or C- band</li>
<li>MW radiometer with frequencies ~19, ~37 and possibly ~90 GHz</li>
<li>X- and Ku-band SAR, or X-band or C-band SAR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>VIS/NIR radiometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>High-spatial-resolution VIS and/or panchromatic radiometer</li>
<li>VIS radiometer</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'snow_cover'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 46 => [
'id' => (int) 13870,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in VIS, the MWIR range 3.5-4 micrometers, and the TIR range 10-13 micrometers, flown in GEO',
'explanation' => 'VIS, MWIR and TIR channels. Soil moisture inferred from thermal inertia, that is accurately measured by frequent sampling (GEO)',
'variable_id' => (int) 149,
'observingmission_id' => null,
'rating' => (int) 470,
'limitations' => [
(int) 0 => [
[maximum depth reached]
],
(int) 1 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 149,
'name' => 'Soil moisture at surface',
'definition' => '<p>Fractional content of water in a volume of wet soil. Surface layer (upper few centimetres)</p>',
'measuring_units' => '<p>m<sup>3</sup> /m<sup>3</sup></p>',
'uncertainty_units' => '<p>m<sup>3</sup> /m<sup>3</sup></p>',
'stability_units' => '<p>m^3 /m^3 </p>',
'hr_units' => 'km',
'vr_units' => '',
'comment' => '',
'subdomain_id' => (int) 5,
'modified' => null,
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the sensing technique (SAR, scatterometer, passive MW, optical);</li>
<li>the exploited spectral bands.</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>L-band MW radiometer</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>P-band SAR</li>
<li>L- and/or S-band SAR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radar scatterometer in C- and possibly Ku- band</li>
<li>MW radiometer with channels around 7 GHz and 10 GHz</li>
<li>MW radiometer with channels around 7 GHz or 10 GHz</li>
<li>C- or X-band SAR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in VIS, NIR, SWIR, MWIR and TIR</li>
<li>Radiometer with channels in VIS, MWIR; TIR and possibly NIR or SWIR</li>
<li>Radiometer with channels in VIS and (MWIR or TIR)</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in VIS, NIR and SWIR</li>
<li>Radiometer with channels in VIS and NIR</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'soil_moisture_at_surface'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 49 => [
'id' => (int) 14640,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=1 channel(s) in the 6-8 micrometers range, and >=2 channels in the 10-13 micrometers range',
'explanation' => 'TIR channels around 6.3 micrometers and in the 11 micrometers split window',
'variable_id' => (int) 162,
'observingmission_id' => null,
'rating' => (int) 270,
'limitations' => [
(int) 0 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 162,
'name' => 'Integrated Water Vapour (IWV)',
'definition' => '<p>Total amount of water vapour present in a vertical atmospheric column.</p>',
'measuring_units' => 'kg.m<sup>-2 </sup>',
'uncertainty_units' => 'kg.m<sup>-2 </sup>',
'stability_units' => 'kg.m<sup>-2 </sup>',
'hr_units' => 'km',
'vr_units' => '',
'comment' => 'Taking into account the density of liquid water, the IWV expressed in kg/m2 is equivalent to the Total Precipitable Water (TPW) expressed in mm of liquid water. Strictly speaking, however, not all the water vapour is actually precipitable.',
'subdomain_id' => (int) 1,
'modified' => null,
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements such as the uncertainty, the vertical resolution, and the frequency and spatial resolution of the retrieved measurement in comparison with the space-time variability of the geophysical parameter. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the spectral band (MW or optical)</li>
<li>the number of spectral bands in the optical ranges (NIR, MWIR/TIR, FIR).</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>High-resolution MW radiometer around 23 GHz</li>
<li>MW radiometer around 23 GHz and in the 183 GHz band</li>
<li>IR spectrometer in the TIR around 6 and 11 mm, and in FIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer in the 183 GHz band</li>
<li>IR spectrometer in the TIR around 6 and 11 mm,</li>
<li>TIR radiometer with channels around 6 mm and in the split window 10-13 mm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer around 23 GHz</li>
<li>Radiometer with channels in two of the bands ~940 nm or ~6 mm or split 10-13 mm or ~18 mm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer around 23 GHz, non-scanning</li>
<li>Spectrometer or radiometer with channels in one of the bands ~6 mm or split 10-13 mm or ~18 mm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>SW spectrometer or hyperspectral imager or radiometer in the band 900-1000 nm</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'integrated_water_vapour_iwv'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 50 => [
'id' => (int) 15330,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in windows (3.5-4 and 10-13 micrometers) and water vapour band (6-8 micrometers)',
'explanation' => 'MWIR and TIR channels in windows around 3.7 and 11 micrometers, and in the water vapour band around 6.3 micrometers',
'variable_id' => (int) 169,
'observingmission_id' => null,
'rating' => (int) 510,
'limitations' => [
(int) 0 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 169,
'name' => 'Upward long-wave irradiance at TOA',
'definition' => '<p>Flux density of terrestrial radiation emitted by the Earth surface and the gases, aerosols and clouds ot the atmosphere at the top of the atmosphere </p>',
'measuring_units' => '<p>W/m<sup>2</sup> </p>',
'uncertainty_units' => '<p>W/m<sup>2</sup></p>',
'stability_units' => '<p>W/m<sup>2</sup></p>',
'hr_units' => 'km',
'vr_units' => '',
'comment' => '',
'subdomain_id' => (int) 3,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements. For this particular Variable, the rating is driven by:</p>
<ul>
<li>whether the LW irradiance is directly measured by broad-band radiometry;</li>
<li>whether it is interpolated from narrow-band radiometers or spectrometers.</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>Broad-band radiometer with LW channel</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>Broad-band radiometer with LW irradiance computed as Total - SW</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>Spectrometer covering the range 3.5-15 mm</li>
<li>Spectrometer covering the range 5-22 mm</li>
<li>Spectrometer covering the range 5-15 mm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in the MWIR and TIR windows, the H2O 6-8 mm band, and the CO2 4.3 and/or 15 mm band(s)</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in the MWIR and TIR windows, and the H2O 6-8 mm band</li>
<li>Radiometer with channels in the TIR window, the CO2 15 mm band, and the H2O 22 mm band</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'upward_long_wave_irradiance_at_toa'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 51 => [
'id' => (int) 15470,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in windows (3.5-4 and 10-13 micrometers) and water vapour band (6-8 micrometers)',
'explanation' => 'MWIR and TIR channels in windows around 3.7 and 11 micrometers, and in the water vapour band around 6.3 micrometers',
'variable_id' => (int) 170,
'observingmission_id' => null,
'rating' => (int) 440,
'limitations' => [
(int) 0 => [
[maximum depth reached]
],
(int) 1 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 170,
'name' => 'Upward long-wave irradiance at Earth surface',
'definition' => '<p>Flux density of terrestrial radiation emitted by the Earth surface </p>',
'measuring_units' => '<p>W/m<sup>2</sup> </p>',
'uncertainty_units' => '<p>W/m<sup>2</sup></p>',
'stability_units' => '<p>W/m<sup>2</sup></p>',
'hr_units' => 'km',
'vr_units' => '',
'comment' => '',
'subdomain_id' => (int) 3,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements. For this particular Variable, the rating is driven by:</p>
<ul>
<li>whether there are multi-viewing or multi-polarisation capabilities;</li>
<li>the covered spectral range.</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in VIS, NIR and SWIR with multi-viewing and multi-polarisation capability</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in VIS, NIR and SWIR with multi-viewing capability</li>
<li>Radiometer with channels in VIS and NIR with multi-viewing and possibly multi-polarisation capability</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>Spectrometer covering VIS, NIR and SWIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer with channels in VIS, NIR and SWIR</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>Radiometer or spectrometer with channels in VIS and NIR</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'upward_long_wave_irradiance_at_earth_surface'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 52 => [
'id' => (int) 16087,
'ruletype_id' => (int) 1,
'description' => 'Radiometer with >=1 channel(s) in TIR, in GEO',
'explanation' => 'TIR channel(s). Frequent sampling (GEO) enables early detection of ash plumes',
'variable_id' => (int) 174,
'observingmission_id' => null,
'rating' => (int) 180,
'limitations' => [
(int) 0 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 174,
'name' => 'Aerosol volcanic ash Total Column',
'definition' => '<p>2D Field of mass of volcanic ash, integrated over the total column.</p>',
'measuring_units' => '<p>g.m<sup>-2</sup></p>',
'uncertainty_units' => '<p>%</p>',
'stability_units' => '<p>%</p>',
'hr_units' => '',
'vr_units' => '',
'comment' => '"Volcanic ash" is a required component of the pre-defined set of aerosol classes from which the aerosol type is chosen. The value reported for "volcanic ash" is the aerosol column burden multiplied by the mass fraction of volcanic ash in the aerosol class chosen as the aerosol type.',
'subdomain_id' => (int) 3,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements such as the uncertainty, the vertical resolution, and the frequency and spatial resolution of the retrieved measurement in comparison with the space-time variability of the geophysical parameter. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the spectral intervals and the channel bandwidth;</li>
<li>the multi-viewing and multi-polarisation capability:</li>
<li>the observing technique (radiometry or lidar).</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>Multi-channel multi-viewing multi-polarisation SW radiometer</li>
<li>Multi-channel multi-viewing SW radiometer</li>
<li>TIR radiometer in GEO or Moniya</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>Backscatter lidar or Doppler lidar</li>
<li>SW spectrometer</li>
<li>Hyperspectral narrow-swath SW radiometer in GEO</li>
<li>Multi-channel SW radiometer missing 760 nm in GEO or Molniya or L1</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>Lidar altimeter</li>
<li>Multi-channel SW radiometer including 760 nm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>Differential Absorption Lidar (DIAL)</li>
<li>Hyperspectral narrow-swath SW radiometer</li>
<li>Multi-channel SW radiometer missing 760 nm in GEO or Molniya</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>Multi-channel SW radiometer missing 760 nm</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'aerosol_volcanic_ash_total_column'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 55 => [
'id' => (int) 16620,
'ruletype_id' => (int) 1,
'description' => 'Geostationary imager with >=1 channel(s) in VIS and in the TIR ranges 10-13 and 6-8 micrometers',
'explanation' => 'VIS channel(s) and TIR channels around 6.3 and 11 micrometers. Frequent sampling (GEO) enables inference from cloud or water vapour pathces motion',
'variable_id' => (int) 179,
'observingmission_id' => null,
'rating' => (int) 300,
'limitations' => [
(int) 0 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 179,
'name' => 'Wind (horizontal)',
'definition' => '<p>3D field of the horizontal vector component (2D) of the 3D wind vector. The acuracy is meant as vector error, i.e. the module of the vector difference between the observed vector and the true vector.</p>',
'measuring_units' => '<p>m.s<sup>-1</sup></p>',
'uncertainty_units' => '<p>m.s<sup>-1</sup></p>',
'stability_units' => '<p>m.s<sup>-1</sup></p>',
'hr_units' => 'km',
'vr_units' => 'km',
'comment' => '',
'subdomain_id' => (int) 1,
'modified' => null,
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements such as the uncertainty, the vertical resolution, and the frequency and spatial resolution of the retrieved measurement in comparison with the space-time variability of the geophysical parameter. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the observing technique (atmospheric features tracking, lidar, line broadening);</li>
<li>the orbit (GEO or LEO).</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>Doppler lidar</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>Hyperspectral sounder in GEO</li>
<li>Imager in GEO or Molniya with channels in VIS and TIR at 6-8, 10-13 and 13.3 mm</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>Imager in GEO or Molniya with channels in VIS and TIR at 6-8 and 10-13 mm</li>
<li>Hyperspectral sounder in LEO</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>TIR imager in LEO with channels at 6-8 and 10-13 mm</li>
<li>Imager in GEO with channels in VIS and TIR at 10-13 mm</li>
<li>High-spatial-reolution multi-angle VIS radiometer in LEO</li>
<li>Very-high spectral resolution limb sounding spectrometer for O2 lines in the VIS and NIR ranges</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>VIS imager in GEO</li>
<li>TIR imager at 10-13 mm in LEO</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'wind_horizontal'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
],
(int) 56 => [
'id' => (int) 10,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=1 channel(s) in the range 10-13 micrometers, flown in GEO. ',
'explanation' => 'TIR channel(s) in the 10-13 micrometers range. Frequent sampling (GEO) is essential for accumulated precipitation.',
'variable_id' => (int) 1,
'observingmission_id' => null,
'rating' => (int) 4000,
'limitations' => [
(int) 0 => [
[maximum depth reached]
],
(int) 1 => [
[maximum depth reached]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 1,
'name' => 'Accumulated precipitation (over 24 h)',
'definition' => '<p>Integration of precipitation rate reaching the ground over several time intervals. The reference requirement refers to integration over 24 h </p>',
'measuring_units' => '<p>mm</p>',
'uncertainty_units' => '<p>mm</p>',
'stability_units' => '<p>mm</p>',
'hr_units' => 'km',
'vr_units' => '',
'comment' => 'Previous name: "Precipitation index (daily cumulative)"',
'subdomain_id' => (int) 2,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements such as the uncertainty, the vertical resolution, and the frequency and spatial resolution of the retrieved measurement in comparison with the space-time variability of the geophysical parameter. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the capability to observe atmospheric water by passive (MW) or active (radar) techniques;</li>
<li>the exploited MW bands (windows or sounding);</li>
<li>the sampling characteristics relevant for time integration.</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer with both 54 and 183 GHz, in GEO</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>High-resolution MW radiometer with both window channels including 90 GHz, and sounding channels, in LEO</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer with both window channels including 90 GHz, and 54 and/or 183 GHz channels, in LEO</li>
<li>TIR radiometer, in GEO</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer with only window channels, including 90 GHz, in LEO</li>
<li>High-resolution MW radiometer with only window channels, missing 90 GHz, in LEO</li>
<li>MW sounder in the bands 183 and (54 or 118) GHz, in LEO</li>
<li>Precipitation radar in Ku- and/or Ka- band</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer with only window channels missing 90 GHz, in LEO</li>
<li>MW sounder with either 54 or 183 GHz, in LEO</li>
<li>W-band cloud radar</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'accumulated_precipitation_over_24_h'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
]
]
$table_id = 'rules-ruletype-1-best'
$key = 'variable'
$param = 'variable'
$r = [
'id' => (int) 10,
'ruletype_id' => (int) 1,
'description' => 'TIR radiometer with >=1 channel(s) in the range 10-13 micrometers, flown in GEO. ',
'explanation' => 'TIR channel(s) in the 10-13 micrometers range. Frequent sampling (GEO) is essential for accumulated precipitation.',
'variable_id' => (int) 1,
'observingmission_id' => null,
'rating' => (int) 4000,
'limitations' => [
(int) 0 => [
'name' => 'Convective precipitation dominant.',
'_joinData' => [
[maximum depth reached]
]
],
(int) 1 => [
'name' => 'Calibration by MW needed.',
'_joinData' => [
[maximum depth reached]
]
]
],
'observingmission' => null,
'variable' => [
'id' => (int) 1,
'name' => 'Accumulated precipitation (over 24 h)',
'definition' => '<p>Integration of precipitation rate reaching the ground over several time intervals. The reference requirement refers to integration over 24 h </p>',
'measuring_units' => '<p>mm</p>',
'uncertainty_units' => '<p>mm</p>',
'stability_units' => '<p>mm</p>',
'hr_units' => 'km',
'vr_units' => '',
'comment' => 'Previous name: "Precipitation index (daily cumulative)"',
'subdomain_id' => (int) 2,
'modified' => object(Cake\I18n\FrozenTime) {},
'created' => null,
'processed' => '1',
'sort_criteria' => '<table>
<tr>
<td width="21" valign="top">
<p> </p>
</td>
<td width="621" valign="top">
<p>Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements such as the uncertainty, the vertical resolution, and the frequency and spatial resolution of the retrieved measurement in comparison with the space-time variability of the geophysical parameter. For this particular Variable, the rating is driven by:</p>
<ul>
<li>the capability to observe atmospheric water by passive (MW) or active (radar) techniques;</li>
<li>the exploited MW bands (windows or sounding);</li>
<li>the sampling characteristics relevant for time integration.</li>
</ul>
<p> </p>
<p>RATING CRITERIA:</p>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>1</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer with both 54 and 183 GHz, in GEO</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>2</p>
</td>
<td width="621" valign="top">
<ul>
<li>High-resolution MW radiometer with both window channels including 90 GHz, and sounding channels, in LEO</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>3</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer with both window channels including 90 GHz, and 54 and/or 183 GHz channels, in LEO</li>
<li>TIR radiometer, in GEO</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>4</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer with only window channels, including 90 GHz, in LEO</li>
<li>High-resolution MW radiometer with only window channels, missing 90 GHz, in LEO</li>
<li>MW sounder in the bands 183 and (54 or 118) GHz, in LEO</li>
<li>Precipitation radar in Ku- and/or Ka- band</li>
</ul>
</td>
</tr>
<tr>
<td width="21" valign="top">
<p>5</p>
</td>
<td width="621" valign="top">
<ul>
<li>MW radiometer with only window channels missing 90 GHz, in LEO</li>
<li>MW sounder with either 54 or 183 GHz, in LEO</li>
<li>W-band cloud radar</li>
</ul>
</td>
</tr>
</table>',
'slug' => 'accumulated_precipitation_over_24_h'
],
'ruletype' => [
'id' => (int) 1,
'name' => 'rating',
'description' => 'Rules that result in a rating for a given variable'
]
]
$relevance_id = (float) 40
$relevance_color = 'color-40'
$relevance_label = '3 - high'
$gapanalysis = '/oscar-uat/gapanalyses?variable=179'
$text = 'VIS channel(s) and TIR channels around 6.3 and 11 micrometers. Frequent sampling (GEO) enables inference from cloud or water vapour pathces motion'
$limitations = 'Cloud or water vapour tracers needed.'rulesList - ROOT/templates/Instruments/view.php, line 444
include - ROOT/templates/Instruments/view.php, line 503
Cake\View\View::_evaluate() - CORE/src/View/View.php, line 1160
Cake\View\View::_render() - CORE/src/View/View.php, line 1121
Cake\View\View::render() - CORE/src/View/View.php, line 751
Cake\Controller\Controller::render() - CORE/src/Controller/Controller.php, line 688
Cake\Controller\Controller::invokeAction() - CORE/src/Controller/Controller.php, line 530
Cake\Controller\ControllerFactory::invoke() - CORE/src/Controller/ControllerFactory.php, line 79
Cake\Http\BaseApplication::handle() - CORE/src/Http/BaseApplication.php, line 229
Cake\Http\Runner::handle() - CORE/src/Http/Runner.php, line 77
Cake\Http\Runner::handle() - CORE/src/Http/Runner.php, line 77
Cake\Http\Middleware\CsrfProtectionMiddleware::process() - CORE/src/Http/Middleware/CsrfProtectionMiddleware.php, line 128
Cake\Http\Runner::handle() - CORE/src/Http/Runner.php, line 73
Cake\Http\Runner::run() - CORE/src/Http/Runner.php, line 58
Cake\Routing\Middleware\RoutingMiddleware::process() - CORE/src/Routing/Middleware/RoutingMiddleware.php, line 162
Cake\Http\Runner::handle() - CORE/src/Http/Runner.php, line 73
Cake\Routing\Middleware\AssetMiddleware::process() - CORE/src/Routing/Middleware/AssetMiddleware.php, line 68
Instrument: S-VISSR (FY-2F/G/H)