def get_config_parameters(cls):
#Called by UI.
buildingTypeList = ('Bank Branch', 'Bank or Financial Institution',
'Barracks', 'Courthouse', 'Distribution Center',
'Hospital (General Medical and Surgical)', 'Hotel',
'House of Worship', 'K-12 School',
'Medical Office', 'Non-Refrigerated Warehouse',
'Office', 'Refrigerated Warehouse',
'Residence Hall/Dormitory', 'Retail Store',
'Senior Care Community',
'Supermarket/Grocery Store',
'Wholesale Club/Supercenter')
return {
"building_sq_ft":
ConfigDescriptor(float, "Square footage", value_min=5000),
"building_year_constructed":
ConfigDescriptor(int,
"Construction Year",
value_min=1800,
value_max=2014),
"building_name":
ConfigDescriptor(str, "Building Name", optional=True),
"building_function":
ConfigDescriptor(str,
"Building Function",
value_list=buildingTypeList),
"building_zipcode":
ConfigDescriptor(str, "Building Zipcode")
}
def get_config_parameters(cls):
#Called by UI
return {
"building_sq_ft": ConfigDescriptor(float, "Square footage", value_min=200),
"building_year_constructed": ConfigDescriptor(int, "Consruction Year", value_min=1800, value_max=2014),
"building_name": ConfigDescriptor(str, "Building Name", optional=True)
}
def get_config_parameters(cls):
# Called by UI
values = ['apple', 'banana', 'grapes', 'pear']
return {
"building_name":
ConfigDescriptor(str, "Building Name", optional=True),
"a_value_from_a_list":
ConfigDescriptor(str, "Fruit", optional=True, value_list=values)
}
def get_config_parameters(cls):
"""
Generate required configuration
parameters with description for user
:return:
"""
dgr_sym = u'\N{DEGREE SIGN}'
return {
'a3_sensitivity':
ConfigDescriptor(
str,
'Application Configuration: value can be default or custom. '
'Setting to custom allows one to enter customized '
'values for Threshold parameters',
value_default="default"),
'a0_no_required_data':
ConfigDescriptor(
int,
'Number of required data measurements to perform diagnostic',
value_default=10),
'a1_data_window':
ConfigDescriptor(
int,
'Minimum elapsed time for analysis (minutes). A default value of 0 will produce hourly results',
value_default=0),
'a2_local_tz':
ConfigDescriptor(
int,
"Integer corresponding to local time zone: [1: 'US/Pacific', 2: 'US/Mountain', 3: 'US/Central', 4: 'US/Eastern']",
value_default=1),
'b0_stpt_deviation_thr':
ConfigDescriptor(
float,
"Threshold: 'Duct Static Pressure Set Point Control Loop Dx' - '"
"the allowable percent deviation from the set point for the duct static pressure",
value_default=20.0),
'b1_zn_high_damper_thr':
ConfigDescriptor(float, (
"Threshold: 'Low Duct Static Pressure Dx'- zone high damper threshold (%)"
),
value_default=90.0),
'b2_zn_low_damper_thr':
ConfigDescriptor(float, (
"Threshold: 'Low Duct Static Pressure Dx' - zone low damper threshold (%)"
),
value_default=25.0),
'b3_hdzn_damper_thr':
ConfigDescriptor(
float,
"Threshold: 'High Duct Static Pressure Dx' - zone damper threshold (%)",
value_default=30.0),
'b4_stcpr_reset_thr':
ConfigDescriptor(
float,
"Threshold: 'No Static Pressure Reset Dx' - the required difference between the minimum and the maximum duct static pressure set point for detection of a duct static pressure set point reset (in. w.g.)",
value_default=0.25)
}
def get_config_parameters(cls):
#Called by UI
return {
"building_name": ConfigDescriptor(str,
"Building Name",
optional=True)
}
def get_config_parameters(cls):
#Called by UI
return {
'building_name':
ConfigDescriptor(str, "Building Name", optional=True),
'pre_start':
ConfigDescriptor(str,
'Pre-Rx start date (yyyy-mm-dd) (including)'),
'pre_end':
ConfigDescriptor(str, 'Pre-Rx end date (yyyy-mm-dd) (excluding)'),
'post_start':
ConfigDescriptor(str,
'Post-Rx start date (yyyy-mm-dd) (including)'),
'post_end':
ConfigDescriptor(str, 'Post-Rx end date (yyyy-mm-dd) (excluding)'),
}
def get_config_parameters(cls):
'''
Generate required configuration
parameters with description for user
'''
dgr_sym = u'\N{DEGREE SIGN}'
return {
'sample_rate':
ConfigDescriptor(str,
'Sample rate for occupancy schedule detection (min)',
value_default='60Min'),
'local_tz':
ConfigDescriptor(int,
"Integer corresponding to local timezone: "
"[1: 'US/Pacific', 2: 'US/Mountain', 3: 'US/Central', 4: 'US/Eastern']",
value_default=1)
}
def get_config_parameters(cls):
'''
Generate required configuration
parameters with description for user
'''
dgr_sym = u'\N{DEGREE SIGN}'
return {
'minimum_data_count':
ConfigDescriptor(int,
'Minimum number of observations for analysis',
value_default=5),
'local_tz':
ConfigDescriptor(
int, "Integer corresponding to local timezone: "
"[1: 'US/Pacific', 2: 'US/Mountain', 3: 'US/Central', 4: 'US/Eastern']",
value_default=1),
'db':
ConfigDescriptor(float, "Temperature Deadband", value_default=0.3)
}
def get_config_parameters(cls):
# Called by UI
# load_query = self.inp.get_query_sets('load', group_by='day')
return {
"building_name":
ConfigDescriptor(str, "Building Name", optional=True),
"baseline_startdate":
ConfigDescriptor(str,
"Baseline Start Date (YYYY-MM-DD)",
optional=False),
"baseline_stopdate":
ConfigDescriptor(str,
"Baseline End Date (YYYY-MM-DD)",
optional=False),
"savings_startdate":
ConfigDescriptor(str,
"Savings Start Date (YYYY-MM-DD)",
optional=False),
"savings_stopdate":
ConfigDescriptor(str,
"Savings End Date (YYYY-MM-DD)",
optional=False)
}
def get_config_parameters(cls):
"""
Generate required configuration parameters with description for user.
:return:
"""
dgr_sym = u'\N{DEGREE SIGN}'
return {
'minimum_data_count':
ConfigDescriptor(int,
'Minimum number of observations for analysis',
value_default=5),
'sensitivity':
ConfigDescriptor(
int, 'Sensitivity to detect a temperature setpoint change: '
'values can be 0 (low), 1 (normal), 2 (high)',
value_default=1),
'local_tz':
ConfigDescriptor(
int, "Integer corresponding to local timezone: "
"[1: 'US/Pacific', 2: 'US/Mountain', 3: 'US/Central', 4: 'US/Eastern']",
value_default=1),
'db':
ConfigDescriptor(float, "Temperature Deadband", value_default=0.3)
}
def get_config_parameters(cls):
# Called by UI
return {
"building_name":
ConfigDescriptor(str, "Building Name", optional=True),
"building_area":
ConfigDescriptor(float, "Building Area"),
"electricity_cost":
ConfigDescriptor(float, "Electricity Cost"),
"operating_hours":
ConfigDescriptor(str,
"Operating Schedule: 'begin, end' (e.g. 8,17)'"),
"operating_days":
ConfigDescriptor(
str,
"List the weekdays when building is operated: \n (1 = Monday, 7 = Sunday), separated by commas"
),
"holidays":
ConfigDescriptor(
str,
"List the holidays (YYYY-MM-DD) in the dataset, separated by commas.",
optional=True),
}
def get_config_parameters(cls):
"""
Generate required configuration
parameters with description for user
"""
return {
'a0_no_required_data':
ConfigDescriptor(
int,
'Number of required data measurements to perform diagnostic',
value_default=10),
'a1_data_window':
ConfigDescriptor(
int, 'Minimum elapsed time for analysis (minutes). '
'The default value of 0 will produce hourly results',
value_default=0),
'a2_local_tz':
ConfigDescriptor(
int,
"Integer corresponding to local time zone: [1: 'US/Pacific', 2: 'US/Mountain', 3: 'US/Central', 4: 'US/Eastern']",
value_default=1),
'a3_sensitivity':
ConfigDescriptor(
str,
'Sensitivity: values can be all (produces a result for low, normal, and high), '
'low, normal, high, or custom. Setting sensitivity to custom allows you to customize your '
'all threshold values',
value_default="all"),
# 'warm_up_time':
# ConfigDescriptor(int,
# 'When the system starts this much '
# 'time will be allowed to elapse before adding '
# 'using data for analysis (minutes)',
# value_default=30),
'b0_stpt_deviation_thr':
ConfigDescriptor(float, 'Allowable deviation from set points '
'before a fault message is generated '
'(%)',
value_default=10.0),
'b1_rht_on_thr':
ConfigDescriptor(
float,
'Minimum reheat command for zone reheat to be considered ON (%)',
value_default=10.0),
'b2_reheat_valve_thr':
ConfigDescriptor(
float,
"'Low Supply-air Temperature Dx' – average zone reheat valve command threshold",
value_default=50.0),
'b3_percent_reheat_thr':
ConfigDescriptor(float, (
'Threshold for average percent of zones where terminal box reheat is ON (%)'
),
value_default=25.0),
'b4_sat_high_damper_thr':
ConfigDescriptor(
float,
"'High Supply-air Temperature Dx' - threshold for determining when zone dampers are commanded to value higher than optimum [high zone damper threshold] (%)",
value_default=80),
'b5_percent_damper_thr':
ConfigDescriptor(
float,
"'High Supply-air Temperature Dx' - threshold for determining when the average percent of zones dampers are commanded to value higher than optimum (%)",
value_default=50.0),
'b6_sat_reset_thr':
ConfigDescriptor(
float,
"'No Supply Temperature Reset Dx' - the required difference between the minimum and the maximum supply-air temperature set point for detection of a supply-air temperature set point reset ({drg}F)"
.format(drg=DGR_SYM),
value_default=3.0)
}
def get_config_parameters(cls):
"""
Generate required configuration
parameters with description for user
"""
dgr_sym = u'\N{DEGREE SIGN}'
config_dict = [
('a0_sensitivity',
ConfigDescriptor(
str,
'Application Configuration: value can be default or custom. '
'Setting to custom allows one to enter customized '
'values for Threshold parameters',
value_default="default")),
('a1_local_tz',
ConfigDescriptor(
int,
"Integer corresponding to local timezone: [1: 'US/Pacific', 2: 'US/Mountain', 3: 'US/Central', 4: 'US/Eastern']",
value_default=1)),
('a2_unocc_time_thr',
ConfigDescriptor(
float,
'Threshold for acceptable unoccupied run-time percentage for AHU supply fan (%)',
value_default=30.0)),
('a3_unocc_stcpr_thr',
ConfigDescriptor(
float,
'Threshold for the AHU average static pressure during unoccupied periods (in. w.g.)',
value_default=0.2)),
('b0_monday_sch',
ConfigDescriptor(str,
'Monday occupancy schedule for AHU',
value_default=['5:30', '18:30'])),
('b1_tuesday_sch',
ConfigDescriptor(str,
'Tuesday occupancy schedule for AHU',
value_default=['5:30', '18:30'])),
('b2_wednesday_sch',
ConfigDescriptor(str,
'Wednesday occupancy schedule for AHU',
value_default=['5:30', '18:30'])),
('b3_thursday_sch',
ConfigDescriptor(str,
'Thursday occupancy schedule for AHU',
value_default=['5:30', '18:30'])),
('b4_friday_sch',
ConfigDescriptor(str,
'Friday occupancy schedule for AHU',
value_default=['5:30', '18:30'])),
('b5_saturday_sch',
ConfigDescriptor(
str,
'Saturday occupancy schedule for AHU (default: unoccupied)',
value_default=['0:00', '0:00'])),
('b6_sunday_sch',
ConfigDescriptor(
str,
'Sunday occupancy schedule for AHU (default: unoccupied)',
value_default=['0:00', '0:00']))
]
config = collections.OrderedDict(config_dict)
return config
def get_config_parameters(cls):
"""
Generate required configuration
parameters with description for user.
:return:
"""
dgr_sym = u'\N{DEGREE SIGN}'
return {
'a0_no_required_data':
ConfigDescriptor(int,
'Number of required data measurements to perform diagnostic', value_default=30),
'a1_data_window':
ConfigDescriptor(int,
'Minimum elapsed time for analysis (minutes)',
value_default=180),
'a2_local_tz':
ConfigDescriptor(int,
"Integer corresponding to local time zone: [1: 'US/Pacific', 2: 'US/Mountain', 3: 'US/Central', 4: 'US/Eastern']",
value_default=1),
'a3_sensitivity':
ConfigDescriptor(int,
'Sensitivity: values can be 0 (low), 1 (normal), 2 (high), 3 (custom). '
'Setting sensitivity to 3 (custom) '
'allows you to enter your own values for all threshold values',
value_default=1),
#'warm_up_time':
#ConfigDescriptor(int,
# 'When the system starts this much '
# 'time will be allowed to elapse before adding '
# 'using data for analysis (minutes)',
# value_default=30),
'b0_min_hwst_threshold': ConfigDescriptor(float, 'Hot-water supply temperature low limit ({drg}F)'.format(drg=dgr_sym),
value_default=125.0),
'b1_max_hwst_threshold': ConfigDescriptor(float, 'Hot-water supply temperature high limit ({drg}F)'.format(drg=dgr_sym),
value_default=190.0),
'b2_min_hwrt_threshold': ConfigDescriptor(float, 'Hot-water return temperature low limit ({drg}F)'.format(drg=dgr_sym),
value_default=115.0),
'b3_max_hwrt_threshold': ConfigDescriptor(float, 'Hot-water return temperature high limit ({drg}F)'.format(drg=dgr_sym),
value_default=180.0),
'b4_desired_delta_t':
ConfigDescriptor(float,
"'HW loop Low Delta-T Dx' - desired difference between the hot water supply and return temperatures ({drg}F)".format(drg=dgr_sym),
value_default=20.0),
'b5_delta_t_threshold':
ConfigDescriptor(float,
"'HW loop Low Delta-T Dx' - threshold for detection of low delta-T for hot water distribution systems ({drg}F)".format(drg=dgr_sym),
value_default=10.0),
'b6_hwst_reset_threshold':
ConfigDescriptor(float,
"'HW loop Supply Temperature Reset Dx' - the required difference between the minimum and the maximum hot-water supply temperature set point for detection of a hot-water supply temperature set point reset ({drg}F)".format(drg=dgr_sym),
value_default=10.0),
'b7_hw_st_threshold':
ConfigDescriptor(float,
"'HW loop High Supply Temperature Dx' - threshold for the average hot water supply temperature ({drg}F)".format(drg=dgr_sym),
value_default=140.0),
'b8_hw_pump_vfd_threshold':
ConfigDescriptor(float,
"'HW loop High Supply Temperature Dx' - threshold for the average pump(s) speed command (%)",
value_default=60.0),
'c0_min_dp_threshold':
ConfigDescriptor(float,
'Hot-water loop differential pressure low limit (psi)',
value_default=2.5),
'c1_max_dp_threshold':
ConfigDescriptor(float,
'Hot-water loop differential pressure high limit (psi)',
value_default=50.0),
'c2_dp_reset_threshold':
ConfigDescriptor(float,
"'HW loop Differential Pressure Reset Dx' - the required difference between the minimum and the maximum hot-water loop differential pressure set point for detection of a hot-water loop differential pressure set point reset (psi)",
value_default=5.0),
'c3_dp_pump_threshold':
ConfigDescriptor(float,
"'HW loop High Differential Pressure Dx' - Pump threshold to determine if the loop differential pressure is too high (%)",
value_default=65.0),
'c4_setpoint_allowable_deviation':
ConfigDescriptor(float,
"'HW Differential Pressure Control Loop Dx' and 'HW Supply Temperature Control Loop Dx' - the allowable percent deviation from the set point for the hot-water supply temperature and loop differential pressure (%)",
value_default=10.0)
}
def get_config_parameters(cls):
'''Generate required configuration
parameters with description for user
'''
dgr_sym = u'\N{DEGREE SIGN}'
return {
'data_window':
ConfigDescriptor(int, 'Minimum Elapsed time for '
'analysis (minutes)',
value_default=180),
'min_dp_threshold':
ConfigDescriptor(float, 'Hot water loop minimum '
'operational differential '
'pressure (psi)',
value_default=2.5),
'no_required_data':
ConfigDescriptor(int, 'Number of required data measurements to '
'perform diagnostic',
value_default=30),
'max_dp_threshold':
ConfigDescriptor(float, 'Hot water loop maximum '
'operational differential '
'pressure (psi)',
value_default=50.0),
'warm_up_time':
ConfigDescriptor(int, 'When the system starts this much '
'time will be allowed to elapse before adding '
'using data for analysis (minutes)',
value_default=30),
'setpoint_allowable_deviation':
ConfigDescriptor(float, 'Percent allowable deviation from set '
'points (HWS and loop DP (%)',
value_default=10.0),
'dp_pump_threshold':
ConfigDescriptor(float,
'Pump threshold to determine if the loop DP '
'is too high (%)',
value_default=45.0),
'dp_reset_threshold':
ConfigDescriptor(float, 'HW loop DP threshold to detect DP reset '
'(psi)',
value_default=5.0),
'hwst_reset_threshold':
ConfigDescriptor(
float,
'HW supply temperature threshold to detect '
'HW supply temperature reset ({drg}F)'.format(drg=dgr_sym),
value_default=10.0),
'hw_st_threshold':
ConfigDescriptor(float,
'HW supply temperature threshold to detect '
'if the HW supply temperature is too '
'high ({drg}F)'.format(drg=dgr_sym),
value_default=120.0),
'hw_pump_vfd_threshold':
ConfigDescriptor(float,
'HW loop pump VFD command threshold used to '
'determine if the HW supply temperature is '
'too high (%)',
value_default=25.0),
'min_hwst_threshold':
ConfigDescriptor(float,
'Minimum allowable operational HW '
'supply temperature ({drg}F)'.format(drg=dgr_sym),
value_default=125.0),
'max_hwst_threshold':
ConfigDescriptor(
float,
'Maximum allowable operational '
'HW supply temperature ({drg}F)'.format(drg=dgr_sym),
value_default=190.0),
'min_hwrt_threshold':
ConfigDescriptor(
float,
'Minimum allowable operational '
'HW return temperature ({drg}F)'.format(drg=dgr_sym),
value_default=115.0),
'max_hwrt_threshold':
ConfigDescriptor(
float,
'Maximum allowable operational '
'HW return temperature ({drg}F)'.format(drg=dgr_sym),
value_default=180.0),
'desired_delta_t':
ConfigDescriptor(
float,
'Desired delta-T (difference between HWS '
'and HWR temperatures ({drg}F)'.format(drg=dgr_sym),
value_default=20.0),
'delta_t_threshold':
ConfigDescriptor(float,
'Band around desired delta-T where '
'where delat-T is considered '
'OK ({drg}F)'.format(drg=dgr_sym),
value_default=10.0)
}